import json from pathlib import Path from dateHelper import format_date, get_date, format_time, get_end_time import datetime # PRZYKLADOWY SCHEMAT DB # informacje o dacie dnia dzisiejszego oraz nazwie tego dnia (pon, wt) będzie trzeba podawać przy inicjalizacji klasy # może być od użytkownika z konsoli lub od systemu # { # "06.06.2021": [ # { # "date": "06.06.2021", # "time": "12:00-13:30", # "place": "Restauracja Alfa", # "participants": ["Jan Kowalski", "Adam Nowak"], # "description": None # }, # { # "date": "06.06.2021", # "time": "18:00-18:45", # "place": "Stadion Miejski", # "participants": ["Jan Kowalski"], # "description": None # } # ], # "07.06.2021": [ # { # "date": "07.06.2021", # "time": "9:00-10:30", # "place": "MS Teams", # "participants": ["Adam Nowak"], # "description": "Wykład z matematyki" # } # ] # } class calender_db: def __init__(self, db_path="data-base/calendar.json"): self.db = {} self.db_file_path = Path(db_path) if self.db_file_path.is_file(): with open(self.db_file_path, 'r+') as f: self.db = json.load(f) def save_db(self): with open(self.db_file_path, 'w+') as f: json.dump(self.db, f) # CRUD methods def create_meeting(self, meeting_dict): date_time = get_date( meeting_dict['date'].lower(), meeting_dict['time'].lower()) if format_date(date_time) in self.db.keys(): if not self.is_collision(format_date(date_time), meeting_dict['time']): self.db[format_date(date_time)].append(meeting_dict) self.save_db() else: self.db[format_date(date_time)] = [meeting_dict] self.save_db() def delete_meeting(self, date, time): date_time = get_date(date, time) if format_date(date_time) in self.db.keys(): meetings = self.db[format_date(date_time)] for key, meeting in enumerate(meetings): if format_time(meeting['time']) == format_time(time): meetings.remove(meeting) self.db[format_date(date_time)] = meetings self.save_db() def update_meeting(self, meeting_dict): date_time = get_date( meeting_dict['date'].lower(), meeting_dict['time'].lower()) if format_date(date_time) in self.db.keys(): meetings = self.db[format_date(date_time)] for key, meeting in enumerate(meetings): if format_time(meeting['time']) == format_time(meeting_dict['time'].lower()): meetings.remove(meeting) meetings.append(meeting_dict) self.db[format_date(date_time)] = meetings self.save_db() def find_meeting(self, date, time): if date in self.db.keys(): meetings = self.db[date] for m in meetings: # Czas może być w formacie (13, 13:00, 13:00-13:30), trzeba dopasować obie strony i porównywać tylko czas startu if format_time(time) == format_time(m['time']): return m return None else: return None def get_meetings(self, date_list): # lista dat dla których chcemy znaleźć spotkania meetings = [] for date in date_list: if date in self.db.keys(): meetings += self.db[date] return meetings def is_collision(self, date, time): meetings = self.db[date] start_time = format_time(time) end_time = get_end_time(time) for meeting in meetings: if self.overlap(start_time, end_time, format_time(meeting['time']), get_end_time(meeting['time'])): return True if start_time == format_time(meeting['time']) or end_time == get_end_time(meeting['time']): return True return False def overlap(self, checking_start, checking_end, base_start, base_end): interval1 = [datetime.datetime.strptime(checking_start, '%H:%M'), datetime.datetime.strptime(checking_end, '%H:%M')] interval2 = [datetime.datetime.strptime(base_start, '%H:%M'), datetime.datetime.strptime(base_end, '%H:%M')] results = [] for timestamp in interval1: results.append(interval2[0] < timestamp < interval2[1]) for timestamp in interval2: results.append(interval1[0] < timestamp < interval1[1]) return True in results # def get_freetime(self, date_list): # freetime_dict = {} # for date in date_list: # time_str = self.start_day_time + "-" + self.end_day_time # freetime_dict[date] = [time_str] # # Change free time if there are meetings at this day # if date in self.DB.keys(): # for meeting in self.DB[date]: # meeting_time = meeting['time'].split("-") # start = meeting_time[0] # # meeting has start and end time # if len(meeting_time > 1): # end = meeting_time[1] # meet_start_h, meet_start_m = self.get_hour_minutes( # start) # meet_end_h, meet_end_m = self.get_hour_minutes(end) # for slot in freetime_dict[date]: # slot_time = slot.split("-") # slot_start_h, slot_start_m = self.get_hour_minutes( # slot_time[0]) # slot_end_h, slot_end_m = self.get_hour_minutes( # slot_time[1]) # # if meeting time have collision with slot time - change / split slot # # meeting starts inside slot # if meet_start_h == slot_start_h and meet_start_m > slot_start_m and meet_start_h < slot_end_h: # pass # elif meet_start_h == slot_start_h and meet_start_m > slot_start_m and meet_start_h == slot_end_h and meet_start_m < slot_end_m: # pass # elif meet_start_h > slot_start_h and meet_start_h < slot_end_h: # pass # elif meet_start_h > slot_start_h and meet_start_h == slot_end_h and meet_start_m < slot_end_m: # pass # # starts before slot, ends inside slot # elif (meet_end_h > slot_start_h) or (meet_end_h == slot_start_h and meet_end_m > slot_start_h): # # meeting in whole slot - delete this slot # if meet_end_h == slot_end_h and meet_end_m == slot_end_m: # pass # # cut slot from left side # else: # pass # # if meeting starts and ends before slot start time - do nothing # # meeting has only start time # else: # m_start_h, m_start_m = self.get_hour_minutes(start) # Tests # db = calender_db() # db.create_meeting({"date": "16.06.2021", "time": "15:00", # "description": "chuj"}) # db.create_meeting({"date": "14.06.2021", "time": "13:00-18:00"}) # db.delete_meeting("16.06.2021", "15:00") # print(db.find_meeting("16.06.2021", "13:00-14:00")) # print(db.get_meetings(["16.06.2021", "14.06.2021"])) # print(db.is_collision("16.06.2021", "12:30-13"))