This file is an exmaple for running the conversion script """ import sys # Yeah this is a hack sys.path.append('.') sys.path.append('../') from convert import Convert from datetime import datetime, timedelta convert = Convert() convert.CSV_FILE_LOCATION = 'examples/BostonCruiseTerminalSchedule.csv' convert.SAVE_LOCATION = 'examples/arrive.ics' convert.HEADER_COLUMNS_TO_SKIP = 2 convert.NAME = 3 convert.START_DATE = 7 convert.END_DATE = 8 convert.DESCRIPTION = 6 convert.LOCATION = 9 convert.read_csv() i = 0 while i < len(convert.csv_data): row = convert.csv_data[i] start_date = row[2] + '-'+row[convert.START_DATE] try: row[convert.START_DATE] = datetime.strptime(start_date, '%m/%d/%y-%H:%M') row[convert.END_DATE] = row[convert.START_DATE]+timedelta(hours=1) i += 1 except:
def ICal_Generator(finallist_Ical, finalname_Ical, chat_type_Ical): #open calendar.csv file with open("calendar" + str(chat_type_Ical) + ".csv", "w") as c: headers_Ical = ("Subject", "StartDate", "StartTime", "EndDate", "EndTime", "AllDayEvent", "Location", "Description") writer_Ical = csv.DictWriter(c, fieldnames=headers_Ical) writer_Ical.writeheader() # counter_Ical is to track the location of module NAME counter_Ical = -1 # For each module added by the user for Module_Ical in finallist_Ical: counter_Ical += 1 #write data into calendar.csv file for row_Ical in Module_Ical: #define variables here First_monday_Ical = "14/8/2017" #supposed to be input value from telegram dates_list_Ical = [] subject_Ical = finalname_Ical[counter_Ical] + " {}".format( row_Ical[1] ) #subject located at this current row and first column starttime_Ical = row_Ical[ 4] #start time located at this current row and column 5th endtime_Ical = row_Ical[ 5] #end time located at this current row and column 6th alldayevent_Ical = "False" #all day event is set to false description_Ical = " Group: %s \n %s" % ( row_Ical[2], row_Ical[7] ) #type of lession and group number is located at 2nd, 3rd, 8th column location_Ical = row_Ical[ 6] #location located at this current row and 7th column #----assigning values to days of wk and changing date accordingly ----# if (row_Ical[3] == str("MON")): b = 0 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) elif (row_Ical[3] == str("TUE")): b = 1 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) elif (row_Ical[3] == str("WED")): b = 2 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) elif (row_Ical[3] == str("THU")): b = 3 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) elif (row_Ical[3] == str("FRI")): b = 4 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) elif (row_Ical[3] == str("SAT")): b = 5 date_Ical = datetime.strptime( First_monday_Ical, '%d/%m/%Y') + timedelta(days=b) date_Ical = str(datetime.strftime(date_Ical, '%m/%d/%Y')) #----while loop to print/insert all possible dates into array----# wk_segment_Ical = row_Ical[7] if wk_segment_Ical == "": total_wk_Ical = range(0, 13) else: # Recall in this code, value wk 0 is representing actual wk 1 and wk cap is 12 total_wk_Ical = [ ] # To input the int value of week with lesson wk_segment_Ical = wk_segment_Ical.replace( "Wk", "") # Remove the "Wk" in the string wk_segment_Ical = wk_segment_Ical.split(",") for segment_counter_Ical in range(0, len(wk_segment_Ical)): if "-" in wk_segment_Ical[segment_counter_Ical]: segment_Ical = wk_segment_Ical[ segment_counter_Ical].split("-") start_segment_Ical = int(segment_Ical[0]) - 1 end_segment_Ical = int(segment_Ical[1]) range_Ical = range(start_segment_Ical, end_segment_Ical) for each_wk_Ical in range_Ical: total_wk_Ical.append((each_wk_Ical)) else: total_wk_Ical.append( (int(wk_segment_Ical[segment_counter_Ical])) - 1) print("POTATO") print(total_wk_Ical) for wk_Ical in range(0, 13): if (wk_Ical != 6): if wk_Ical in total_wk_Ical: dates_list_Ical.append(date_Ical) print(dates_list_Ical) date_Ical = datetime.strptime( date_Ical, '%m/%d/%Y') + timedelta(days=7) date_Ical = str( datetime.strftime(date_Ical, '%m/%d/%Y')) else: if wk_Ical in total_wk_Ical: dates_list_Ical.append(date_Ical) print(dates_list_Ical) date_Ical = datetime.strptime( date_Ical, '%m/%d/%Y') + timedelta(days=14) date_Ical = str( datetime.strftime(date_Ical, '%m/%d/%Y')) #----while loop to print/insert all possible dates into array----# for dcol_Ical in range(0, len(total_wk_Ical)): start_end_date_Ical = dates_list_Ical[dcol_Ical] writer_Ical.writerow({"Subject" : subject_Ical, "StartDate" : start_end_date_Ical , "StartTime" : starttime_Ical , \ "EndDate" : start_end_date_Ical , "EndTime" : endtime_Ical , "AllDayEvent" : alldayevent_Ical , \ "Description" : description_Ical, "Location" : location_Ical}) #Initializing Converter for CSV to ICS file, #each variable equivalent to a column in the csv file generated convert = Convert() convert.CSV_FILE_LOCATION = "calendar" + str(chat_type_Ical) + ".csv" convert.SAVE_LOCATION = "calendar" + str(chat_type_Ical) + ".ics" convert.HEADER_COLUMNS_TO_SKIP = 0 convert.NAME = 0 convert.START_DATE = 1 convert.END_DATE = 2 convert.DESCRIPTION = 7 convert.LOCATION = 6 CSV_Data = convert.csv_data # Create a list for data in csv convert.read_csv() # convert.csv_data is the returned value(list) of convert.read_csv # To remove headings i = 1 while i < (len(CSV_Data)): CSV_Row = CSV_Data[i] print(CSV_Row) if CSV_Row != []: # Order should be [EVENTNAME, START_DATE, END_DATE, DESCRIPTION, LOCATION] CSVstart_date = str(CSV_Row[1]) + '-' + str(CSV_Row[2]) CSVend_date = str(CSV_Row[3]) + '-' + str(CSV_Row[4]) CSV_Data[i][convert.START_DATE] = datetime.strptime( CSVstart_date, '%m/%d/%Y-%H:%M') CSV_Data[i][convert.END_DATE] = datetime.strptime( CSVend_date, '%m/%d/%Y-%H:%M') i += 1 print("added") else: CSV_Data.pop(i) # For Debugging #print(CSV_Data) convert.csv_data = CSV_Data[1:] print(convert.csv_data) convert.make_ical() #print (convert.cal) #Debug check for ical file convert.save_ical()