def anagram_2d_array(self):
        """
            This method is used to store prime anagram and prime number which are not anagram in matrix or 2d array.
            and print them accordingly
        """
        prime_list = Utility.get_prime()  # get prime numbers

        anagram_list = Utility.get_anagram_prime(
        )  # get anagram numbers which is prime also

        not_anagram = []
        row = 10
        column = 25

        two_d_array = [[0 for j in range(column)] for i in range(row)]

        k = 0

        index = 0

        for i in prime_list:

            if anagram_list.__contains__(
                    i) is not True:  # if file not contains same element

                not_anagram.append(i)  # append into not_anagram list

        for i in range(row):

            for j in range(column):

                if k < len(anagram_list):

                    two_d_array[i][j] = anagram_list[
                        k]  # add element of anagram list into array

                    k += 1

                if k >= len(anagram_list) and index < len(not_anagram):

                    two_d_array[i][j] = not_anagram[
                        index]  # add element of not_anagram list

                    k += 1  # into same array after anagram_list

                    index += 1

        for i in range(row):

            for j in range(column):

                if two_d_array[i][j] != 0:

                    print(two_d_array[i][j], end=" ")  # print 2d array

            print()
    def prime_number_2d_array(self):
        """
            This method is used to store prime number in matrix or 2d array
            and print in proper order.
        """

        prime_list = Utility.get_prime()  # get prime number

        row = 10

        column = 25

        limit = 100

        # create empty 2d array
        two_d_array = [[0 for loop in range(column)] for loop in range(row)]

        loop3 = 0
        for loop1 in range(row):

            for loop2 in range(column):

                if loop3 < len(prime_list):

                    if prime_list[
                            loop3] <= limit:  # prime number check with the limit

                        two_d_array[loop1][loop2] = prime_list[
                            loop3]  # add number into array

                        loop3 += 1

            limit += 100  # increment limit by 100 for each iteration

        for loop4 in range(row):

            for loop5 in range(column):

                if two_d_array[loop4][loop5] != 0:

                    print(two_d_array[loop4][loop5],
                          end=" ")  # display elements in 2d array format

            print()