def __init__(self, start_time: int, family_range, friends_range, coworkers_range, others_range): self.ONE_HOUR = 3600 # cannot be changed self.ONE_DAY = 86400 self.family = get_handsets(family_range, 'family') self.friends = get_handsets(friends_range, 'friend') self.coworkers = get_handsets(coworkers_range, 'coworker') self.others = get_handsets(others_range, 'other') self.all_handsets = self.family + self.friends + self.coworkers + self.others # noqa # this is the current date/time for the simulation self.time = start_time # save off the actual start time for reporting self.start_time_ts = start_time self.start_time = datetime.datetime.utcfromtimestamp( start_time).isoformat() # noqa # the person that eventually will contract C19 self.subject = Handset('subject') self.cloud = Cloud()
def __init__(self, start_time: int): self.family = get_handsets(random.randrange(2, 8), 'family') self.friends = get_handsets(random.randrange(10, 20), 'friend') self.coworkers = get_handsets(random.randrange(15, 40), 'coworker') self.others = get_handsets(random.randrange(40, 100), 'other') self.all_handsets = self.family + self.friends + self.coworkers + self.others # noqa # this is the current date/time for the simulation self.time = start_time # save off the actual start time for reporting self.start_time = datetime.datetime.utcfromtimestamp( start_time).isoformat() # noqa # the person that eventually will contract C19 self.subject = Handset('subject') self.cloud = Cloud()
def mingle(self, other: Handset): subject_rpi = self.subject.get_rpi(self.time) other_rpi = other.get_rpi(self.time) other.receive_rpi(subject_rpi) self.subject.receive_rpi(other_rpi)
class Life: def __init__(self, start_time: int, family_range, friends_range, coworkers_range, others_range): self.ONE_HOUR = 3600 # cannot be changed self.ONE_DAY = 86400 self.family = get_handsets(family_range, 'family') self.friends = get_handsets(friends_range, 'friend') self.coworkers = get_handsets(coworkers_range, 'coworker') self.others = get_handsets(others_range, 'other') self.all_handsets = self.family + self.friends + self.coworkers + self.others # noqa # this is the current date/time for the simulation self.time = start_time # save off the actual start time for reporting self.start_time_ts = start_time self.start_time = datetime.datetime.utcfromtimestamp( start_time).isoformat() # noqa # the person that eventually will contract C19 self.subject = Handset('subject') self.cloud = Cloud() def start(self): """This is the main entrypoint for running the simulation, the called functions here are just helpers to create common patterns of interaction """ for _ in range(0, 5): self.weekday() self.weekend() self.weekend() for _ in range(0, 5): self.weekday() self.weekend() self.weekend() # save off the actual end time for reporting self.end_time = datetime.datetime.utcfromtimestamp( self.time).isoformat() # noqa self.subject.upload_teks(self.cloud) def find_contacts(self): """Go through all of the handsets and find which ones were in contact """ contacts = [] for handset in self.all_handsets: contacts.append(handset.determine_contacts(self.cloud)) return sorted(contacts, key=lambda c: len(c), reverse=True) def mingle(self, other: Handset): subject_rpi = self.subject.get_rpi(self.time) other_rpi = other.get_rpi(self.time) other.receive_rpi(subject_rpi) self.subject.receive_rpi(other_rpi) def generate_report(self): ts = datetime.datetime.utcfromtimestamp(self.start_time_ts) fname = 'report_' + ts.strftime('%Y-%m-%dT%H%M%S') + '.txt' # report statistics stats = {} stats['report_name'] = fname stats['start_time'] = self.start_time stats['end_time'] = self.end_time stats['hour_duration_sec'] = self.ONE_HOUR stats['day_duration_sec'] = self.ONE_DAY stats['contacts'] = 0 stats['contact_periods'] = 0 with open(fname, 'w') as fp: stats['family'] = len(self.family) stats['friends'] = len(self.friends) stats['coworkers'] = len(self.coworkers) stats['others'] = len(self.others) fp.write(f'Simulation Start Time: {self.start_time}\n\n') fp.write(f'Family Count: {len(self.family)}\n') fp.write(f'Friend Count: {len(self.friends)}\n') fp.write(f'Coworker Count: {len(self.coworkers)}\n') fp.write(f'Other Count: {len(self.others)}\n\n') contacts = self.find_contacts() contact_list: List[Contact] for contact_list in contacts: if not contact_list: continue stats['contacts'] = stats['contacts'] + 1 # write metadata about the handset using the first Contact fp.write('-' * 20 + '\n') fp.write(f'Handset ID: {contact_list[0].uuid}\n') fp.write(f'Relation to subject: {contact_list[0].relation}\n') fp.write(f'Contact periods:\n') # write out the timestamps this handset had close # contact with the subject for contact in contact_list: fp.write(f'\t\t{contact.ts}\n') stats['contact_periods'] = stats['contact_periods'] + 1 return json.dumps(stats, sort_keys=False, indent=4) def hour(self, focus: str): self.time += self.ONE_HOUR if focus == 'family': other = random.choice(self.family) self.mingle(other) if focus == 'coworker': other = random.choice(self.coworkers) self.mingle(other) other = random.choice(self.coworkers) self.mingle(other) if focus == 'friends': other = random.choice(self.friends) self.mingle(other) if focus == 'others': other = random.choice(self.others) self.mingle(other) def weekday(self): day_start = self.time # save the first hour of our day # starting a new day, generate the TEK # for each handset self.subject.create_tek(self.time) for h in self.all_handsets: h.create_tek(self.time) # 1h at home with family self.hour('family') # 1h commute / breakfast if random.choice([1, 2, 3]) == 1: self.hour('others') # 4h work self.hour('coworker') self.hour('coworker') self.hour('coworker') self.hour('coworker') # 1h lunch / gym if random.choice([1, 2, 3]) == 1: self.hour('others') # 4h work self.hour('coworker') self.hour('coworker') self.hour('coworker') self.hour('coworker') # 1h happy hour if random.choice([1, 2, 3, 4, 5]) == 1: self.hour('friends') # 2h back home self.hour('family') self.hour('family') # fast forward to the next morning self.time = day_start + self.ONE_DAY def weekend(self): day_start = self.time self.subject.create_tek(self.time) for h in self.all_handsets: h.create_tek(self.time) # 2h wakeup home self.hour('family') self.hour('family') # 1h gym self.hour('others') # 1h quick meetup self.hour('friends') # 2h lunch home self.hour('family') self.hour('family') # party self.hour('friends') self.hour('friends') # afterparty self.hour('others') self.hour('others') # 1h family self.hour('family') self.hour('family') self.time = day_start + self.ONE_DAY
def get_handsets(count, relation): return [Handset(relation) for _ in range(0, count)]
class Life: def __init__(self, start_time: int): self.family = get_handsets(random.randrange(2, 8), 'family') self.friends = get_handsets(random.randrange(10, 20), 'friend') self.coworkers = get_handsets(random.randrange(15, 40), 'coworker') self.others = get_handsets(random.randrange(40, 100), 'other') self.all_handsets = self.family + self.friends + self.coworkers + self.others # noqa # this is the current date/time for the simulation self.time = start_time # save off the actual start time for reporting self.start_time = datetime.datetime.utcfromtimestamp( start_time).isoformat() # noqa # the person that eventually will contract C19 self.subject = Handset('subject') self.cloud = Cloud() def start(self): """This is the main entrypoint for running the simulation, the called functions here are just helpers to create common patterns of interaction """ for _ in range(0, 5): self.weekday() self.weekend() self.weekend() for _ in range(0, 5): self.weekday() self.weekend() self.weekend() self.subject.upload_teks(self.cloud) def find_contacts(self): """Go through all of the handsets and find which ones were in contact """ contacts = [] for handset in self.all_handsets: contacts.append(handset.determine_contacts(self.cloud)) return sorted(contacts, key=lambda c: len(c), reverse=True) def mingle(self, other: Handset): subject_rpi = self.subject.get_rpi(self.time) other_rpi = other.get_rpi(self.time) other.receive_rpi(subject_rpi) self.subject.receive_rpi(other_rpi) def generate_report(self): with open('report.txt', 'w') as fp: fp.write(f'Simulation Start Time: {self.start_time}\n\n') fp.write(f'Family Count: {len(self.family)}\n') fp.write(f'Friend Count: {len(self.friends)}\n') fp.write(f'Coworker Count: {len(self.coworkers)}\n') fp.write(f'Other Count: {len(self.others)}\n\n') contacts = self.find_contacts() contact_list: List[Contact] for contact_list in contacts: if not contact_list: continue # write metadata about the handset using the first Contact fp.write('-' * 20 + '\n') fp.write(f'Handset ID: {contact_list[0].uuid}\n') fp.write( f'Relation to subject: {contact_list[0].relation} [SIMULATION DATA ONLY, would not be revealed real-world] \n' ) # noqa fp.write(f'Contact periods:\n') # write out the timestamps this handset had close # contact with the subject for contact in contact_list: fp.write(f'\t\t{contact.ts}\n') def hour(self, focus: str): self.time += ONE_HOUR if focus == 'family': other = random.choice(self.family) self.mingle(other) if focus == 'coworker': other = random.choice(self.coworkers) self.mingle(other) other = random.choice(self.coworkers) self.mingle(other) if focus == 'friends': other = random.choice(self.friends) self.mingle(other) if focus == 'others': other = random.choice(self.others) self.mingle(other) def weekday(self): day_start = self.time # save the first hour of our day # starting a new day, generate the TEK # for each handset self.subject.create_tek(self.time) for h in self.all_handsets: h.create_tek(self.time) # spend a couple hours in the morning with family self.hour('family') self.hour('family') # stop for some breakfast / coffee on the way to work? if random.choice([1, 2, 3]) == 1: self.hour('others') # work, work! self.hour('coworker') self.hour('coworker') self.hour('coworker') # lunch / gym? if random.choice([1, 2, 3]) == 1: self.hour('others') # moar work self.hour('coworker') self.hour('coworker') # happy hour? if random.choice([1, 2, 3, 4, 5]) == 1: self.hour('friends') # back home self.hour('family') self.hour('family') # fast forward to the next morning self.time = day_start + ONE_DAY def weekend(self): day_start = self.time self.subject.create_tek(self.time) for h in self.all_handsets: h.create_tek(self.time) self.hour('family') self.hour('family') self.hour('family') # errands or whatever self.hour('others') # quick meetup self.hour('friends') # back home self.hour('family') self.hour('family') # party! self.hour('friends') self.hour('friends') self.hour('friends') # afterparty self.hour('others') self.hour('others') self.time = day_start + ONE_DAY