def initDays(config: {}) -> [Day]:
days = [Day.fromDict(d) for d in load("days")]
# DO NOT Remove old days. They are necessary to properly recreate the schedule for past days
# Create new days to remain at 1000 day threshold (20 for debug)
# dayCount = 1000 # Real
dayCount = 100 # Debug
daysToCreate = dayCount - len(days)
if days:
startDate = days[-1].date
else:
startDate = arrow.now().date()
currentDate = arrow.get(startDate)
# Check if the current day is missing and add it if necessary
for day in days:
if day.date == currentDate.date():
break
else:
days.append(Day(currentDate.date(), [], []))
# Fill up days to get up to dayCount
for _ in range(daysToCreate):
currentDate = currentDate.shift(days=1)
newDay = Day(currentDate.date(), [], [])
days.append(newDay)
# Load config-TimeSlots onto days if they don't exist already
for day in days:
initDay(day, config) # Adds temporary timeslots based on config
return days
def show_week(self):
for i in range(0, 6):
tmp_date = date.today() + timedelta(days=i)
apmts = Outlooker.get_events_start_from(tmp_date)
day = Day(self, tmp_date, apmts)
day.update_label()
self.centralWidget.layout().addWidget(day)
def show_week(self): for i in range(0, 6): tmp_date = date.today() + timedelta(days=i) apmts = Outlooker.get_events_start_from(tmp_date) day = Day(self, tmp_date, apmts) day.update_label() self.centralWidget.layout().addWidget(day)
class Lemonadestand:
def __init__(self):
self.glasses = 0
self.price = 0
self.day = Day()
self.player = Player()
self.lemonadeCost = self.getLemonadeCost(self.day.daynumber)
def makeLemonade(self):
self.glasses = self.day.makeGlasses()
self.price = self.day.setPrice()
print(self.glasses, self.price)
def showMorningReport(self):
print("Today is Day: " + str(self.day.daynumber))
self.day.todaysWeather.displayWeather()
self.player.displayAssets()
self.displayLemonadeCost(self.lemonadeCost)
def displayLemonadeCost(self, cost):
print("Cost of Lemonade is " + str(cost) + " cents a glass.")
def getLemonadeCost(self, daynumber):
if daynumber < 3:
answer = 2
else:
answer = 4
return answer
class HistoryInterface:
'''
This class implements an interface to an external file, which contains
a list of gone WorkingDays - that is: Days. Methods are offered
for printing out some of those days.
'''
HISTORY_FILE = 'history.json'
# The maximum number of working days stored in the history file:
MAX_DAYS = 30
def __init__(self):
self.history_list = []
self.a_day = Day()
def load_history_data(self):
'''Loads the history data from the disk.'''
try:
with open(HistoryInterface.HISTORY_FILE, 'r') as fh:
self.history_list = json.load(fh)
except FileNotFoundError:
self.history_list = []
def dump_history_data(self):
'''Saves history data into the disk'''
with open(HistoryInterface.HISTORY_FILE, 'w') as fh:
json.dump(self.history_list, fh, indent=4, separators=(',', ': '))
def show_history_data(self):
'''Shows all the days in the history file.'''
self.load_history_data()
if self.history_list == []:
print('\n\tNo history data is available at this point.\n')
return
for i, working_day in enumerate(self.history_list):
# working_day is a dict containing data of one working day.
# Suck that data into the instance self.a_day of the class Day.
self.a_day.dict_to_day(working_day)
print(f'History day number {i}:')
print(self.a_day)
def append_working_day(self, w_day):
'''
Loads the history data from the disk. Appends a new working day
to that data. Dumps the updated history data back into the disk.
w_day is an instance of the class WorkingDay.
'''
#print('\nAppending the following working day into the history file:\n')
#print(w_day)
self.load_history_data()
if len(self.history_list) >= HistoryInterface.MAX_DAYS:
# Remove the oldest day to make room for the newest one
self.history_list.pop(0)
# Make a dict of the new day to be appended into self.history_list
working_day = w_day.day_to_dict()
self.history_list.append(working_day)
self.dump_history_data()
def initialization(self):
day = self.first_day_of_month
for guard_day in range(self.days_of_month):
if guard_day == 0:
self.guards_program.append(Day(guard_day, 0, "-"))
else:
self.guards_program.append(Day(guard_day, day, "-"))
day += 1
if day == 7:
day = 0
def console_add_record(a_user):
"""Allows the user to add a Record to a day. Calls the console_create_record function to do so.
:param a_user: User
"""
good_format = False # Will not allow the user to continue without a valid date format.
while not good_format:
date_string = input("Enter date for record (MM/DD/YYYY, 0 for today: ")
# If the user entered a date of their own, check it for validity.
if date_string != "0":
try:
date_obj = datetime.datetime.strptime(date_string, '%m/%d/%Y').date()
good_format = True
except ValueError:
print("Accepted inputs are 0 or the format MM/DD/YYYY. Try again.")
# Otherwise, set the date to today's date.
else:
good_format = True
date_obj = datetime.datetime.today().date()
current_day = Day(date_of_day=date_obj) # Create a new Day object.
# Attempt to insert the day into the user's doubly-linked list of Days.
if not a_user.insert_day_in_list(current_day):
# If the date was already there, find the appropriate day instead of inserting a new one.
current_day = a_user.last_day
while current_day.date_of_day != date_obj:
current_day = current_day.previous_day
# Display menu for adding records.
print("Add record for:")
print("1. Morning")
print("2. Afternoon")
print("3. Evening")
print("4. Back")
choice = int(input("\nEnter number: "))
while choice < 1 or choice > 4:
print("Invalid entry.")
choice = int(input("Enter number:"))
if choice != 4:
if choice == 1:
current_day.morning_record = console_create_record()
elif choice == 2:
current_day.afternoon_record = console_create_record()
else:
current_day.evening_record = console_create_record()
def get_day(date): db_connection = get_db_connection() cursor = db_connection.cursor() q = ''' SELECT * FROM day WHERE substr(date, 1, 10) = ? ''' result = cursor.execute(q,(date,)).fetchone() if result != None: if len(result) > 8: day = Day(result[1],result[2],result[3],result[4],result[5],result[6],result[7],result[8],result[0]) else: day = Day(result[1],result[2],result[3],result[4],result[5],result[6],result[7],None,result[0]) db_connection.close() return day else: db_connection.close() return None
def update_days_list(self):
self.daysList = []
# Get days count
for i in range(len(self.loadList[0].pattern)):
expenses = 0
profit = 0
consumption = 0
production = 0
for load in self.loadList:
pattern = load.pattern
# TODO Something smart (stupid median right now)
if load.type == 'solar' or load.type == 'windgen':
production += float(pattern[i][2])
expenses += load.money
else:
consumption += float(pattern[i][2])
profit += load.money * float(pattern[i][2])
# TODO Set exchange cost?
if production > consumption:
profit += (production - consumption) * self.commonExchangeCost
else:
expenses += (consumption -
production) * self.commonExchangeCost
self.daysList.append(Day(expenses, profit, consumption,
production))
def randomize(self):
for d in range(self.num_days):
workerA = choice(self.workers)
workerB = choice(self.workers)
workerC = choice(self.workers)
day = Day(workerA, workerB, workerC)
self.schedule[d] = day
class ConsumerDB(saxutils.DefaultHandler):
def __init__(self, from_time=None, to_time=None):
self.search_from_time = from_time
self.search_to_time = to_time
self.days = {}
def startElement(self, name, attrs):
self.cur_val = ""
if name == "day":
date = attrs.get("date", None)
date = xml.utils.iso8601.parse(date)
if self.search_from_time and date < self.search_from_time: return
if self.search_to_time and date > self.search_to_time: return
date = datetime.date.fromtimestamp(date)
self.cur_day = Day(date)
elif name == "food":
ftime = attrs.get("time", None)
ftime = xml.utils.iso8601.parse(ftime)
if self.search_from_time and ftime < self.search_from_time: return
if self.search_to_time and ftime > self.search_to_time: return
self.cur_food = Food(attrs.get("name", None))
time = datetime.datetime.fromtimestamp(ftime, tz.LocalTimezone())
self.cur_food.set_time(time)
def characters(self, chr):
self.cur_val = self.cur_val + chr
def endElement(self, name):
if name == "day":
self.days[self.cur_day.date.ctime()] = self.cur_day
elif name == "food":
self.cur_day.add_food(self.cur_food)
elif name == "weight":
self.cur_day.set_weight(atof(self.cur_val))
elif name == "quantity":
self.cur_food.quantity = atof(self.cur_val)
elif name == "energy":
self.cur_food.energy = atoi(self.cur_val)
def getDays(self):
return self.days
class ConsumerDB(saxutils.DefaultHandler):
def __init__(self, from_time = None, to_time = None):
self.search_from_time = from_time
self.search_to_time = to_time
self.days = {}
def startElement(self, name, attrs):
self.cur_val = ""
if name == "day":
date = attrs.get("date", None)
date = xml.utils.iso8601.parse(date)
if self.search_from_time and date < self.search_from_time: return
if self.search_to_time and date > self.search_to_time: return
date = datetime.date.fromtimestamp(date)
self.cur_day = Day(date)
elif name == "food":
ftime = attrs.get("time", None)
ftime = xml.utils.iso8601.parse(ftime)
if self.search_from_time and ftime < self.search_from_time: return
if self.search_to_time and ftime > self.search_to_time: return
self.cur_food = Food(attrs.get("name", None))
time = datetime.datetime.fromtimestamp(ftime, tz.LocalTimezone())
self.cur_food.set_time(time)
def characters(self, chr):
self.cur_val = self.cur_val + chr
def endElement(self, name):
if name == "day":
self.days[self.cur_day.date.ctime()] = self.cur_day
elif name == "food":
self.cur_day.add_food(self.cur_food)
elif name == "weight":
self.cur_day.set_weight(atof(self.cur_val))
elif name == "quantity":
self.cur_food.quantity = atof(self.cur_val)
elif name == "energy":
self.cur_food.energy = atoi(self.cur_val)
def getDays(self):
return self.days
def startElement(self, name, attrs):
self.cur_val = ""
if name == "day":
date = attrs.get("date", None)
date = xml.utils.iso8601.parse(date)
if self.search_from_time and date < self.search_from_time: return
if self.search_to_time and date > self.search_to_time: return
date = datetime.date.fromtimestamp(date)
self.cur_day = Day(date)
elif name == "food":
ftime = attrs.get("time", None)
ftime = xml.utils.iso8601.parse(ftime)
if self.search_from_time and ftime < self.search_from_time: return
if self.search_to_time and ftime > self.search_to_time: return
self.cur_food = Food(attrs.get("name", None))
time = datetime.datetime.fromtimestamp(ftime, tz.LocalTimezone())
self.cur_food.set_time(time)
def read_day_input(date):
total = read_positive_number("Enter total number of the tasks in your todo list: ")
completed = read_positive_number("Out of %d, how many did you complete? " % total , total)
social = read_rating_value("How satisfied are you with your social activities today?\n")
health = read_rating_value("How satisfied are you with your health activities today?\n")
overall = read_rating_value("Your overall rate for your day?\n")
note = input(Fore.BLUE + "Any final note? (press enter directly if you have nothing) " + Style.RESET_ALL)
day = Day(user.id,date,total,completed,social,health,overall,note)
return day
def runSimulation(self):
for i in range(0, self.simulationDuration):
if (i > 0):
self.Blobs = self.Days[i - 1].getAliveBlobs()
if (len(self.Blobs) == 0):
return False
currentDay = Day(i, self.maximumDayLength, self.world,
self.foodQuantity, self.Blobs)
self.Days.append(currentDay)
def __init__(self):
self.week = {"Monday": Day("Monday"),
"Tuesday": Day("Tuesday"),
"Wednesday": Day("Wednesday") ,
"Thursday": Day("Thursday"),
"Friday": Day("Friday"),
"Saturday": Day("Saturday"),
"Sunday":Day("Sunday"), }
def __init__(self, num_workers, num_days):
self.num_workers = num_workers
self.num_days = num_days
self.workers = list(range(num_workers))
self.schedule = []
for d in range(num_days):
day = Day(-1, -1, -1)
self.schedule.append(day)
def __init__(self, days_in_a_month, daily_employee_required, holidays_in_a_month):
self.days_in_a_month = days_in_a_month
self.daily_employee_required = daily_employee_required
self.holidays_in_a_month = holidays_in_a_month
self.total_employee_required = ceil((self.days_in_a_month * self.daily_employee_required) / \
(self.days_in_a_month - self.holidays_in_a_month))
self.rooster = [Day(day + 1) for day in range(self.days_in_a_month)]
self.consecutive_work_days = 5
self.week_holidays = 2
self.employees = self.create_employees(self.total_employee_required)
def save(self, _commit):
# see if this entry is a duplicate before creating it.
existing_entries = self.query.filter_by(timestamp=self.timestamp)\
.filter_by(content=self.content).count()
if existing_entries and existing_entries > 0: # if it exists
flask.current_app.logger.info("skipping entry because entry already exists")
return
if not self.day_id:
# find the day if it exists
from day import Day
this_date = datetime.date.fromordinal(self.timestamp.toordinal())
this_day = Day.find(date=this_date)
if not this_day: # else create the day right now
this_day = Day.create(date=this_date)
# now assign a value to this Entry's day
self.day = this_day
super(Entry, self).save()
def add_record(self, time, new_entry_window, close_on_add=True):
"""Strips date and Record from new_entry_window. Inserts Record into appropriate spot in the_user's
doubly-linked list of Days. (adds spot if not found)
:param time: int (represents Morning (1), Afternoon (2), Evening (3)
:param new_entry_window: tkinter.Toplevel (specifically a _new_or_view_base window)
:param close_on_add: bool (defaults to True)
:return:
"""
# Strip date from window
date = datetime.datetime.strptime(
new_entry_window.date_entry_box.get(), "%m/%d/%Y").date()
# Strip Record from window
record_to_add = self._create_record(new_entry_window)
# Creates a Day object with the appropriate date
current_day = Day(date_of_day=date)
# Inserts day in list (unless it is already there)
if not the_user.insert_day_in_list(current_day):
# Navigates to appropriate day in the list
current_day = the_user.last_day
while current_day.date_of_day != date:
current_day = current_day.previous_day
# Inserts record in appropriate spot of Day
if time == 1:
current_day.morning_record = record_to_add
elif time == 2:
current_day.afternoon_record = record_to_add
elif time == 3:
current_day.evening_record = record_to_add
else:
raise ValueError("Time of day not set.")
# Closes window upon successfully adding record if close_on_add is true
if close_on_add:
new_entry_window.grab_release()
new_entry_window.destroy()
def __init__(self, year, month):
self.applicationList = []
self.categoryList = []
r = calendar.monthrange(year, month)
for i in range(r[0] + 1, r[1] + 1):
result = Day(year, month, i)
self.applicationList = mergeAppDataList(self.applicationList,
result.applicationList)
self.categoryList = updateCategory(self.applicationList)
self.applicationList.sort()
self.categoryList.sort()
self.info = "%(year)d-%(month)d" % vars()
def get_all_days(): db_connection = get_db_connection() cursor = db_connection.cursor() q = '''SELECT * FROM day ORDER BY date ASC ''' cursor.execute(q) days = cursor.fetchall() days_list = [] for day in days: d = Day(day[1],day[2],day[3],day[4],day[5],day[6],day[7],day[8],day[0]) days_list.append(d) db_connection.close() return days_list
def get_month_days(month,year): db_connection = get_db_connection() cursor = db_connection.cursor() q = '''SELECT * FROM day WHERE date BETWEEN \'%d-%02d-00\' AND \'%d-%02d-32\''''%(year,month,year,month) cursor.execute(q) days = cursor.fetchall() days_list = [] for day in days: d = Day(day[1],day[2],day[3],day[4],day[5],day[6],day[7],day[8],day[0]) days_list.append(d) db_connection.close() return days_list
def runTest(self):
# Generate an XML file first.
days = {}
for f in range(20):
curtime = datetime.datetime(2005, 6, f + 1, 0, 0, 0, 0,
tz.LocalTimezone())
day = Day(curtime)
day.set_weight(100)
for i in range(20):
food = Food("Testfood " + str(i))
food.quantity = 10 + i
food.energy = 100 * i
food.time = curtime
day.add_food(food)
days[curtime.ctime()] = day
gen = ConsumerDBGenerator()
gen.generate(XML_FILE, days)
# Now read.
db = ConsumerDB()
self.parser.setContentHandler(db)
self.parser.parse(XML_FILE)
assert len(db.getDays()) == 20
os.remove(XML_FILE)
def initDay(day: Day, config: {}) -> None:
if day.special: # No defaults are applied
return
if day.date.weekday() >= 5: # Weekend (Sat/Sun)
lst = config["weekendTimeSlots"]
else:
lst = config["weekdayTimeSlots"]
for timeSlotDict in lst:
timeSlot = TimeSlot.fromDict(
timeSlotDict,
temporary=True) # These automatic TimeSlots are NOT persisted
try:
day.addTimeSlot(timeSlot)
except ValueError:
if timeSlot in day.timeSlots:
pass # Already added
else:
# In case of overlap, avoid a crash by not applying the default timeSlot
print(
f"WARNING: Default TimeSlot {timeSlot} could not be added to {day} because it overlaps with an existing TimeSlot!"
)
def load(self, filename):
with open(filename) as f:
lines = f.readlines()
self.num_workers = int(lines[0].strip())
self.num_days = int(lines[1].strip())
self.schedule = [None] * self.num_days
for n, d in enumerate(lines[2:]):
m, e, g = map(int, d.split(","))
day = Day(m, e, g)
self.schedule[n] = day
self.num_workers = max([m, e, g, self.num_workers])
self.workers = list(range(self.num_workers))
def main():
args = parse_arguments()
if args.test:
run_tests()
return
assert args.day, "Need to specify day"
directories = [
name for name in os.listdir(".")
if os.path.isdir(name) and name == "day_{:02d}".format(args.day)
]
assert len(directories) == 1
import_module("{name}.{name}".format(name=directories[0]))
assert len(Day.__subclasses__()) == 1
day = Day.__subclasses__()[0]()
if args.part_1:
print("Solution part 1:", day.part_1())
if args.part_2:
print("Solution part 2:", day.part_2())
def set_time():
period = request.args.get('period')
yy = int(request.args.get('yy'))
mm = int(request.args.get('mm'))
dd = int(request.args.get('dd'))
global the_data
if period == 'year':
the_data = Year(yy)
elif period == 'month':
the_data = Month(yy, mm)
elif period == 'week':
the_data = Week(yy, mm, dd)
else:
the_data = Day(yy, mm, dd)
return the_data.info
def runTest(self):
# Generate an XML file first.
days = {}
for f in range(20):
curtime = datetime.datetime(2005, 6, f + 1, 0, 0, 0, 0, tz.LocalTimezone())
day = Day(curtime)
day.set_weight(100)
for i in range(20):
food = Food("Testfood " + str(i))
food.quantity = 10 + i
food.energy = 100 * i
food.time = curtime
day.add_food(food)
days[curtime.ctime()] = day
gen = ConsumerDBGenerator();
gen.generate(XML_FILE, days)
# Now read.
db = ConsumerDB()
self.parser.setContentHandler(db)
self.parser.parse(XML_FILE)
assert len(db.getDays()) == 20
os.remove(XML_FILE)
def __init__(self, year, month, day):
self.applicationList = []
self.categoryList = []
d = datetime.date.today()
if day is not 0:
d = datetime.date(year, month, day)
d = d + datetime.timedelta(days=-d.weekday())
for i in xrange(7):
theday = d + datetime.timedelta(days=i)
result = Day(theday.year, theday.month, theday.day)
self.applicationList = mergeAppDataList(self.applicationList,
result.applicationList)
self.categoryList = updateCategory(self.applicationList)
self.applicationList.sort()
self.categoryList.sort()
self.info = (d.isoformat() + " ~ " +
(d + datetime.timedelta(days=7)).isoformat())
def startElement(self, name, attrs):
self.cur_val = ""
if name == "day":
date = attrs.get("date", None)
date = xml.utils.iso8601.parse(date)
if self.search_from_time and date < self.search_from_time: return
if self.search_to_time and date > self.search_to_time: return
date = datetime.date.fromtimestamp(date)
self.cur_day = Day(date)
elif name == "food":
ftime = attrs.get("time", None)
ftime = xml.utils.iso8601.parse(ftime)
if self.search_from_time and ftime < self.search_from_time: return
if self.search_to_time and ftime > self.search_to_time: return
self.cur_food = Food(attrs.get("name", None))
time = datetime.datetime.fromtimestamp(ftime, tz.LocalTimezone())
self.cur_food.set_time(time)
def __init__(self, soup):
self.list_day = []
for i in soup.findAll('div', {'class': 'panel panel-default'}):
day = Day(i)
for a in day.content.findAll(title="Teachers"):
if len(a) > 1:
day.teacher_list.append(a.contents[1].contents[1].string)
for a in day.content.findAll("div", "address-modal-btn"):
day.adress_list.append(a.contents[1].string.strip())
for a in day.content.findAll(title="Time"):
day.time_list.append(a.string.strip())
for a in day.content.findAll(title="Subject"):
day.subject_list.append(a.string.strip())
for a in day.content.findAll("h4", "panel-title"):
day.day.append(a.string.strip())
self.list_day.append(day)
def import_data(self, filename):
path = os.path.join("userdata", filename)
file = open(path, 'r', encoding="utf-8")
data = json.loads(file.read())
file.close()
print("Importing schedule from", filename)
self.events = []
for e in data["events"]:
event_id = e["id"]
self.events.append(Event(e, event_id))
self.schedule = []
for d in data["schedule"]:
day_name = list(d.keys())[0]
self.schedule.append(
Day(day=day_name, events=d[day_name], user_events=self.events))
def __init__(self, filename=None):
if not os.path.isdir("userdata"):
os.mkdir("userdata")
if os.path.isfile("userdata/schedule.json") and filename is None:
filename = "schedule.json"
if filename is not None:
self.import_data(filename)
else:
print("Creating schedule from scratch")
self.events = []
self.schedule = []
for _ in range(7):
self.schedule.append(Day(_))
self.export()
def get_selected_day(self):
# Return the day if it already exists.
today_date = self.get_calendar_date()
today = self.days.setdefault(today_date.ctime(), Day(today_date))
if today.get_weight() > 0:
return today
# If it was newly instantiated (get_weight == 0) above, inherit the
# weight from the previous day.
offset = datetime.timedelta(1)
yesterday_date = today_date - offset
yesterday = self.days.get(yesterday_date.ctime())
if yesterday:
today.set_weight(yesterday.get_weight())
return today
# If the previous day was not yet instantiated, get the default weight
# from the form.
weight = round(self.spinbutton_weight.get_value(), 2)
today.set_weight(weight)
return today
def run_tests():
directories = [
name for name in os.listdir(".")
if os.path.isdir(name) and name.startswith("day_")
]
for directory in directories:
import_module("{name}.{name}".format(name=directory))
for day_class in tqdm(
sorted(Day.__subclasses__(), key=lambda cls: cls.__name__)):
day = day_class()
if day.part_1_solution is None:
tqdm.write("Part 1 of {} is not implemented!".format(
day_class.__name__))
else:
assert day.part_1() == day.part_1_solution, "Part 1 is broken"
if day.part_2_solution is None:
tqdm.write("Part 2 of {} is not implemented!".format(
day_class.__name__))
else:
assert day.part_2() == day.part_2_solution, "Part 2 is broken"
if day.part_1_solution is not None and day.part_2_solution is not None:
tqdm.write("{} is ok!".format(day_class.__name__))
def test_bad2(self):
self.day = Day.check_day("saturn")
correct_day = 6
self.assertEqual( correct_day, self.day)
def test_good4(self):
self.day = Day.check_day("0")
correct_day = 0
self.assertEqual( correct_day, self.day)
def test_good5(self):
self.day = Day.check_day("4")
correct_day = 4
self.assertEqual( correct_day, self.day)
def test_vgood6(self):
self.day = Day.check_day("Friday")
correct_day = 5
self.assertEqual( correct_day, self.day)
def test_bad1(self):
self.day = Day.check_day("yestuenonlj;")
correct_day = 2
self.assertEqual( correct_day, self.day)
def __init__(self):
self.glasses = 0
self.price = 0
self.day = Day()
self.player = Player()
self.lemonadeCost = self.getLemonadeCost(self.day.daynumber)
def test_vbad0(self):
self.day = Day.check_day("^%$6bhgwju5rk7!")
correct_day = 0
self.assertEqual( correct_day, self.day)
def test_middle3(self):
self.day = Day.check_day("10")
correct_day = 7
self.assertEqual( correct_day, self.day)
def setUp(self):
self.day = Day.check_day("")
