def anagram(): """ :return: """ utility_obj = Utility() print("Enter the frist string:") string1 = utility_obj.inputString() print("Enter the second string:") string2 = utility_obj.inputString() utility_obj.anagramLogic(string1, string2)
from com.bridgelabz.utility.Utility import Utility import time utility_obj = Utility() starttime = 0 stoptime = 0 choice = 0 flag = 0 print("press 1 to start the stopwatch:") print("please press 1 ") choice = utility_obj.inputIntiger() if choice == 1: print("start time:") starttime = utility_obj.getstartandstoptime() print(starttime) choice1 = int(input("press 0 to stop:")) if choice1 == 0: print("stop time:") stoptime = utility_obj.getstartandstoptime() print(stoptime) flag = 1 else: print("invalid input to the stop watch!!") flag = 0 else: print("invalid input to the start watch!!") flag = 0 if flag == 1: elapsetime = utility_obj.elapsedTime(starttime, stoptime)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the number of trials:") no_of_trails = utility_obj.inputIntiger() print("Enter Stake:") stake = utility_obj.inputIntiger() print("Enter Goal:") goal = utility_obj.inputIntiger() utility_obj.gamblerLogic(no_of_trails, stake, goal)
from com.bridgelabz.utility.Utility import Utility template = "hello <<username>>!! how are you?" print(template) utility_obj = Utility() print("Enter the Username:") username = utility_obj.inputString() result = utility_obj.replace_string(template, username) print(result)
from com.bridgelabz.utility.Utility import Utility utility_obj=Utility() print("Enter non-negative number c:") c=utility_obj.inputIntiger() utility_obj.newtonSqrtLogic(c)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the lower limit:") lower_limit = utility_obj.inputIntiger() print("Enter the upper limit:") upper_limit = utility_obj.inputIntiger() primenumber = [] primenumber = utility_obj.findPrimeNumber(lower_limit, upper_limit) utility_obj.checkPalindrome(primenumber) utility_obj.checkAnagram(primenumber)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the size of list:") size = utility_obj.inputIntiger() insertionlist = [] print("Enter the string Elements:") insertionlist = utility_obj.acceptListElement(size) starttime = utility_obj.getstartandstoptime() utility_obj.insertionSortLogic(insertionlist, size) stoptime = utility_obj.getstartandstoptime() elapsetime = utility_obj.elapsedTime(starttime, stoptime) print("Elapsed time is:", elapsetime)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the of distinct coupan:") num_of_trails = utility_obj.inputIntiger() utility_obj.findDistinct(num_of_trails)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter Number of Rows") row = utility_obj.get_int() print("Enter Number of Columns") column = utility_obj.get_int() two_d_array = utility_obj.get_2d__input(row, column) for i in range(0, row): for j in range(0, column): print(two_d_array[i][j], end=" ") print("")
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() list = utility_obj.get_prime_factors() for i in list: print(i)
""" purpose : To implement a program to check given string is palindrome or not @Author : Rohini Zade @version : 1.0 @since : 28-11-2018 """ from com.bridgelabz.utility.Utility import Utility from com.bridgelabz.utility.Datastructure_utility import * if __name__ == "__main__": utility_obj = Utility() queue_obj = Queue() palindrome_obj = checkpalindrome() string = input("Enter the siring:") palindrome_obj.palindromeLogic(string)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the cash:") cash = utility_obj.inputIntiger() count_total_notes = 0 utility_obj.vendingMachineLogic(cash, count_total_notes)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter limit") limit = utility_obj.get_int() l = utility_obj.power(limit) for i in l: print(i)
""" purpose : Hashing Function to search a Number in a slot @Author : Rohini Zade @version : 1.0 @since : 1-12-2018 """ from com.bridgelabz.utility.Utility import Utility from com.bridgelabz.utility.Datastructure_utility import * if __name__ == "__main__": utility_obj = Utility() hashfunction_object = HashFunction() storeelement = [30, 45, 22, 42, 85, 10, 67, 55] no_of_slots = 8 hashlist = hashfunction_object.hashFunctionLogic(no_of_slots, storeelement) print(hashlist) print("Enter the no you want to search:") key = utility_obj.inputIntiger() hashfunction_object.hashSearchFunction(key, hashlist, no_of_slots)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() year = input("Enter the year:") utility_obj.leapYearFunction(year)
""" purpose : To find the possible Binary Search Trees from given number of node @Author : Rohini Zade @version : 1.0 @since : 1-12-2018 """ from com.bridgelabz.utility.Utility import Utility if __name__ == "__main__": utility_obj = Utility() starttime = utility_obj.getstartandstoptime() utility_obj.binarySearch() stoptime = utility_obj.getstartandstoptime() elapsetime = utility_obj.elapsedTime(starttime, stoptime) print("Elapsed time is:", elapsetime)
from com.bridgelabz.utility.Utility import Utility utility_obj=Utility() print("Enter the number:") number=utility_obj.inputIntiger() utility_obj.findPrimeFactor(number)
from com.bridgelabz.utility.Utility import Utility utility_obj=Utility() print("Enter the day:") day=utility_obj.inputIntiger() print("Enter the month:") month=utility_obj.inputIntiger() print("Enter the year:") year=utility_obj.inputIntiger() result=utility_obj.calculateDayOfWeek(day,month,year) daylist=["sunday","monday","tuesday","wednesday","thursday","friday","saturday"] print(daylist[result])
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the size of list:") size = utility_obj.inputIntiger() print("Enter element of list:") listelement = [] listelement = utility_obj.acceptElement(size) newlistelement = utility_obj.distinctTriplate(size, listelement)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter Number of values you want to enter") no_of_values = utility_obj.get_int() print("Enter values now") store_values = [] for i in range(0, no_of_values): value = utility_obj.get_int() store_values.append(value) utility_obj.find_triplet(store_values)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the number of trails you want to filp the coin:") num_of_trails = utility_obj.inputIntiger() utility_obj.coinfunction(num_of_trails)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter coefficient of x^2") a = utility_obj.get_int() print("Enter coefficient of x") b = utility_obj.get_int() print("Enter contant c") c = utility_obj.get_int() first_root, second_root = utility_obj.get_quadratic_roots(a, b, c) print("First Root =>" + str(first_root)) print("Second Root => " + str(second_root))
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter principle amount:") p = utility_obj.inputIntiger() print("Enter the no of years:") y = utility_obj.inputIntiger() print("Enter the rate of interset:") r = utility_obj.inputIntiger() utility_obj.findMonthlyPayment(p, y, r)
from com.bridgelabz.utility.Utility import Utility import sys utility_obj = Utility() # x_coordinate = int(sys.argv[1]) # y_coordinate = int(sys.argv[2]) print("Enter x_coordinate ") x_coordinate = utility_obj.get_int() print(" Enter y_coordinate ") y_coordinate = utility_obj.get_int() euclidean_distance = utility_obj.get_euclidean_distance( x_coordinate, y_coordinate) print(euclidean_distance)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the Decimal number:") Decimalnumber = utility_obj.inputIntiger() binary_number = utility_obj.decimalToBinary(Decimalnumber) print(binary_number)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter Stake") stake = utility_obj.get_int() print("Enter goal") goal = utility_obj.get_int() print("Enter number of times you want to play") no_of_times = utility_obj.get_int() win_count, win_percent, lose_percent = utility_obj.get_gambling_result( stake, goal, no_of_times) print(win_count) print(win_percent) print(lose_percent)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the string:") string = utility_obj.inputString() currentIndex = 0 utility_obj.permutationLogic(string, currentIndex)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("Enter the number:") number = utility_obj.inputIntiger() utility_obj.HarmonicSeriesfunction(number)
""" purpose : Add the Prime Numbers that are Anagram in the Range of 0 - 1000 in a Queue using the Linked List and Print the Anagrams from the Queue @Author : Rohini Zade @version : 1.0 @since : 30-11-2018 """ from com.bridgelabz.utility.Utility import Utility from com.bridgelabz.utility.Datastructure_utility import * if __name__ == "__main__": utility_obj = Utility() anagram_obj = Anagram() stackllist = StackByLink() print("Enter the lower limit:") lower_limit = utility_obj.inputIntiger() print("Enter the upper limit:") upper_limit = utility_obj.inputIntiger() primenumber = utility_obj.findPrimeNumber(lower_limit, upper_limit) anagramlist = [] storeanagram = [] uniquelist = [] print("The prime number which are Anagram:") storeanagram = anagram_obj.anagramLogic(primenumber, anagramlist) # print(storeanagram)
from com.bridgelabz.utility.Utility import Utility utility_obj = Utility() print("enter harmonic value") harmonic_value=utility_obj.get_int() utility_obj.get_nth_harmonic_value(harmonic_value)