task_id int64 601 974 | text stringlengths 38 249 | code stringlengths 30 908 | test_list listlengths 3 3 | test_setup_code stringclasses 2
values | challenge_test_list listlengths 0 0 |
|---|---|---|---|---|---|
724 | Write a function to rotate a given list by specified number of items to the right direction. | def add_list(nums1,nums2):
result = map(lambda x, y: x + y, nums1, nums2)
return list(result) | [
"assert find_Extra([1,2,3,4],[1,2,3],3) == 3",
"assert find_Extra([2,4,6,8,10],[2,4,6,8],4) == 4",
"assert find_Extra([1,3,5,7,9,11],[1,3,5,7,9],5) == 5"
] | [] | |
648 | Write a python function to get the last element of each sublist. | def substract_elements(test_tup1, test_tup2):
res = tuple(tuple(a - b for a, b in zip(tup1, tup2))
for tup1, tup2 in zip(test_tup1, test_tup2))
return (res) | [
"assert last([1,2,3],1,3) == 0",
"assert last([1,1,1,2,3,4],1,6) == 2",
"assert last([2,3,2,3,6,8,9],3,8) == 3"
] | [] | |
832 | Write a function to find a path with the maximum average over all existing paths for the given square matrix of size n*n. | def recur_gcd(a, b):
low = min(a, b)
high = max(a, b)
if low == 0:
return high
elif low == 1:
return 1
else:
return recur_gcd(low, high%low) | [
"assert even_num(13.5)==False",
"assert even_num(0)==True",
"assert even_num(-9)==False"
] | [] | |
655 | Write a function to get an item of a tuple. | import re
def split_list(text):
return (re.findall('[A-Z][^A-Z]*', text)) | [
"assert remove_char(\"123abcjw:, .@! eiw\") == '123abcjweiw'",
"assert remove_char(\"Hello1234:, ! Howare33u\") == 'Hello1234Howare33u'",
"assert remove_char(\"Cool543Triks@:, Make@987Trips\") == 'Cool543TriksMake987Trips' "
] | [] | |
814 | Write a python function to find number of solutions in quadratic equation. | def sum_Range_list(nums, m, n):
sum_range = 0 ... | [
"assert slope(4,2,2,5) == -1.5",
"assert slope(2,4,4,6) == 1",
"assert slope(1,2,4,2) == 0"
] | [] | |
879 | ## write a function to find the minimum number of jumps to reach the end of the array for the given array of integers where each element represents the max number of steps that can be made forward from that element. > indented block > indented block | def chunk_tuples(test_tup, N):
res = [test_tup[i : i + N] for i in range(0, len(test_tup), N)]
return (res) | [
"assert sort_list([(3, 4, 6, 723), (1, 2), (12345,), (134, 234, 34)] ) == '[(1, 2), (12345,), (3, 4, 6, 723), (134, 234, 34)]'",
"assert sort_list([(3, 4, 8), (1, 2), (1234335,), (1345, 234, 334)] ) == '[(1, 2), (3, 4, 8), (1234335,), (1345, 234, 334)]'",
"assert sort_list([(34, 4, 61, 723), (1, 2), (145,), (13... | [] | |
885 | Write a python function to check whether the length of the word is even or not. | def Check_Solution(a,b,c):
if b == 0:
return ("Yes")
else:
return ("No") | [
"assert remove_empty([(), (), ('',), ('a', 'b'), ('a', 'b', 'c'), ('d')])==[('',), ('a', 'b'), ('a', 'b', 'c'), 'd'] ",
"assert remove_empty([(), (), ('',), (\"python\"), (\"program\")])==[('',), (\"python\"), (\"program\")] ",
"assert remove_empty([(), (), ('',), (\"java\")])==[('',),(\"java\") ] "
] | [] | |
691 | Write a function to remove similar rows from the given tuple matrix. | def is_Perfect_Square(n) :
i = 1
while (i * i<= n):
if ((n % i == 0) and (n / i == i)):
return True
i = i + 1
return False | [
"assert count_char(\"Python\",'o')==1",
"assert count_char(\"little\",'t')==2",
"assert count_char(\"assert\",'s')==2"
] | [] | |
849 | Write a function to split a string at uppercase letters. | def str_to_tuple(test_str):
res = tuple(map(int, test_str.split(', ')))
return (res) | [
"assert check_Type_Of_Triangle(1,2,3) == \"Obtuse-angled Triangle\"",
"assert check_Type_Of_Triangle(2,2,2) == \"Acute-angled Triangle\"",
"assert check_Type_Of_Triangle(1,0,1) == \"Right-angled Triangle\""
] | [] | |
723 | Write a python function to find the cube sum of first n odd natural numbers. | def sample_nam(sample_names):
sample_names=list(filter(lambda el:el[0].isupper() and el[1:].islower(),sample_names))
return len(''.join(sample_names)) | [
"assert left_rotate(\"python\",2) == \"thonpy\" ",
"assert left_rotate(\"bigdata\",3 ) == \"databig\" ",
"assert left_rotate(\"hadoop\",1 ) == \"adooph\" "
] | [] | |
805 | Write a function to convert a date of yyyy-mm-dd format to dd-mm-yyyy format. | def remove_spaces(str1):
str1 = str1.replace(' ','')
return str1 | [
"assert sum_column( [[1,2,3,2],[4,5,6,2],[7,8,9,5],],0)==12",
"assert sum_column( [[1,2,3,2],[4,5,6,2],[7,8,9,5],],1)==15",
"assert sum_column( [[1,2,3,2],[4,5,6,2],[7,8,9,5],],3)==9"
] | [] | |
903 | Write a function to create a list taking alternate elements from another given list. | def find_Min_Swaps(arr,n) :
noOfZeroes = [0] * n
count = 0
noOfZeroes[n - 1] = 1 - arr[n - 1]
for i in range(n-2,-1,-1) :
noOfZeroes[i] = noOfZeroes[i + 1]
if (arr[i] == 0) :
noOfZeroes[i] = noOfZeroes[i] + 1
for i in range(0,n) :
if (arr[i] == 1)... | [
"assert palindrome_lambda([\"php\", \"res\", \"Python\", \"abcd\", \"Java\", \"aaa\"])==['php', 'aaa']",
"assert palindrome_lambda([\"abcd\", \"Python\", \"abba\", \"aba\"])==['abba', 'aba']",
"assert palindrome_lambda([\"abcd\", \"abbccbba\", \"abba\", \"aba\"])==['abbccbba', 'abba', 'aba']"
] | [] | |
617 | Write a python function to find the average of a list. | def rgb_to_hsv(r, g, b):
r, g, b = r/255.0, g/255.0, b/255.0
mx = max(r, g, b)
mn = min(r, g, b)
df = mx-mn
if mx == mn:
h = 0
elif mx == r:
h = (60 * ((g-b)/df) + 360) % 360
elif mx == g:
h = (60 * ((b-r)/df) + 120) % 360
elif mx == b:
h = (60... | [
"assert average_Even(2) == 2",
"assert average_Even(4) == 3",
"assert average_Even(100) == 51"
] | [] | |
948 | Write a function to list out the list of given strings individually using map function. | def smallest_Divisor(n):
if (n % 2 == 0):
return 2;
i = 3;
while (i*i <= n):
if (n % i == 0):
return i;
i += 2;
return n; | [
"assert find_triplet_array([1, 4, 45, 6, 10, 8], 6, 22) == (4, 10, 8)",
"assert find_triplet_array([12, 3, 5, 2, 6, 9], 6, 24) == (12, 3, 9)",
"assert find_triplet_array([1, 2, 3, 4, 5], 5, 9) == (1, 3, 5)"
] | [] | |
622 | Write a function to convert degrees to radians. | def chinese_zodiac(year):
if (year - 2000) % 12 == 0:
sign = 'Dragon'
elif (year - 2000) % 12 == 1:
sign = 'Snake'
elif (year - 2000) % 12 == 2:
sign = 'Horse'
elif (year - 2000) % 12 == 3:
sign = 'sheep'
elif (year - 2000) % 12 == 4:
sign = 'Monkey'
elif (year - 2000) % 12 == ... | [
"assert match_num('5-2345861')==True",
"assert match_num('6-2345861')==False",
"assert match_num('78910')==False"
] | [] | |
804 | Write a function to count the most common character in a given string. | def is_nonagonal(n):
return int(n * (7 * n - 5) / 2) | [
"assert sum_Even(2,5) == 6",
"assert sum_Even(3,8) == 18",
"assert sum_Even(4,6) == 10"
] | [] | |
926 | Write a function to remove multiple spaces in a string by using regex. | import re
def split_upperstring(text):
return (re.findall('[A-Z][^A-Z]*', text)) | [
"assert rectangle_perimeter(10,20)==60",
"assert rectangle_perimeter(10,5)==30",
"assert rectangle_perimeter(4,2)==12"
] | [] | |
840 | Write a function to find all anagrams of a string in a given list of strings using lambda function. | def get_ludic(n):
ludics = []
for i in range(1, n + 1):
ludics.append(i)
index = 1
while(index != len(ludics)):
first_ludic = ludics[index]
remove_index = index + first_ludic
while(remove_index < len(ludics)):
ludics.remove(ludics[remove_index])
remove_index = remove_index + first_ludic - 1
... | [
"assert concatenate_nested((3, 4), (5, 6)) == (3, 4, 5, 6)",
"assert concatenate_nested((1, 2), (3, 4)) == (1, 2, 3, 4)",
"assert concatenate_nested((4, 5), (6, 8)) == (4, 5, 6, 8)"
] | [] | |
710 | Write a function to sort the tuples alphabetically by the first item of each tuple. | def max_sum_subseq(A):
n = len(A)
if n == 1:
return A[0]
look_up = [None] * n
look_up[0] = A[0]
look_up[1] = max(A[0], A[1])
for i in range(2, n):
look_up[i] = max(look_up[i - 1], look_up[i - 2] + A[i])
look_up[i] = max(look_up[i], A[i])
return look_up[n - 1... | [
"assert nth_super_ugly_number(12,[2,7,13,19])==32",
"assert nth_super_ugly_number(10,[2,7,13,19])==26",
"assert nth_super_ugly_number(100,[2,7,13,19])==5408"
] | [] | |
759 | Write a python function to get the difference between two lists. | def mul_even_odd(list1):
first_even = next((el for el in list1 if el%2==0),-1)
first_odd = next((el for el in list1 if el%2!=0),-1)
return (first_even*first_odd) | [
"assert unique_sublists([[1, 3], [5, 7], [1, 3], [13, 15, 17], [5, 7], [9, 11]])=={(1, 3): 2, (5, 7): 2, (13, 15, 17): 1, (9, 11): 1}",
"assert unique_sublists([['green', 'orange'], ['black'], ['green', 'orange'], ['white']])=={('green', 'orange'): 2, ('black',): 1, ('white',): 1}",
"assert unique_sublists([[1,... | [] | |
969 | Write a function to locate the left insertion point for a specified value in sorted order. | def check(string):
if len(set(string).intersection("AEIOUaeiou"))>=5:
return ('accepted')
else:
return ("not accepted") | [
"assert pair_OR_Sum([5,9,7,6],4) == 47",
"assert pair_OR_Sum([7,3,5],3) == 12",
"assert pair_OR_Sum([7,3],2) == 4"
] | [] | |
736 | Write a python function to find maximum possible value for the given periodic function. | def remove_empty(tuple1): #L = [(), (), ('',), ('a', 'b'), ('a', 'b', 'c'), ('d')]
tuple1 = [t for t in tuple1 if t]
return tuple1 | [
"assert check_smaller((1, 2, 3), (2, 3, 4)) == False",
"assert check_smaller((4, 5, 6), (3, 4, 5)) == True",
"assert check_smaller((11, 12, 13), (10, 11, 12)) == True"
] | [] | |
854 | Write a function to calculate the harmonic sum of n-1. | def count_Fac(n):
m = n
count = 0
i = 2
while((i * i) <= m):
total = 0
while (n % i == 0):
n /= i
total += 1
temp = 0
j = 1
while((temp + j) <= total):
temp += j
count += 1
j += 1
... | [
"assert extract_date(\"https://www.washingtonpost.com/news/football-insider/wp/2016/09/02/odell-beckhams-fame-rests-on-one-stupid-little-ball-josh-norman-tells-author/\") == [('2016', '09', '02')]",
"assert extract_date(\"https://www.indiatoday.in/movies/celebrities/story/wp/2020/11/03/odeof-sushant-singh-rajput-... | [] | |
603 | Write a python function to count equal element pairs from the given array. | def count_vowels(test_str):
res = 0
vow_list = ['a', 'e', 'i', 'o', 'u']
for idx in range(1, len(test_str) - 1):
if test_str[idx] not in vow_list and (test_str[idx - 1] in vow_list or test_str[idx + 1] in vow_list):
res += 1
if test_str[0] not in vow_list and test_str[1] in vow_list:
res +=... | [
"assert triangle_area(0) == 0",
"assert triangle_area(-1) == -1",
"assert triangle_area(2) == 4"
] | [] | |
947 | Write a function to sort a list of dictionaries using lambda function. | def is_Product_Even(arr,n):
for i in range(0,n):
if ((arr[i] & 1) == 0):
return True
return False | [
"assert get_coordinates((3, 4)) == [[2, 3], [2, 4], [2, 5], [3, 3], [3, 4], [3, 5], [4, 3], [4, 4], [4, 5]]",
"assert get_coordinates((4, 5)) ==[[3, 4], [3, 5], [3, 6], [4, 4], [4, 5], [4, 6], [5, 4], [5, 5], [5, 6]]",
"assert get_coordinates((5, 6)) == [[4, 5], [4, 6], [4, 7], [5, 5], [5, 6], [5, 7], [6, 5], [... | [] | |
974 | Write a python function to find the last two digits in factorial of a given number. | import bisect
def right_insertion(a, x):
i = bisect.bisect_right(a, x)
return i | [
"assert count_duplic([1,2,2,2,4,4,4,5,5,5,5])==([1, 2, 4, 5], [1, 3, 3, 4])",
"assert count_duplic([2,2,3,1,2,6,7,9])==([2, 3, 1, 2, 6, 7, 9], [2, 1, 1, 1, 1, 1, 1])",
"assert count_duplic([2,1,5,6,8,3,4,9,10,11,8,12])==([2, 1, 5, 6, 8, 3, 4, 9, 10, 11, 8, 12], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1])"
] | [] | |
778 | Write a function to check a decimal with a precision of 2. | def pair_OR_Sum(arr,n) :
ans = 0
for i in range(0,n) :
for j in range(i + 1,n) :
ans = ans + (arr[i] ^ arr[j])
return ans | [
"assert lower_ctr('abc') == 3",
"assert lower_ctr('string') == 6",
"assert lower_ctr('Python') == 5"
] | [] | |
845 | Write a function to count the pairs of reverse strings in the given string list. | from collections import OrderedDict
def remove_duplicate(string):
result = ' '.join(OrderedDict((w,w) for w in string.split()).keys())
return result | [
"assert arc_length(9,45)==3.5357142857142856",
"assert arc_length(9,480)==None",
"assert arc_length(5,270)==11.785714285714285"
] | [] | |
605 | Write a function to find palindromes in a given list of strings using lambda function. | def Check_Solution(a,b,c):
if (a == c):
return ("Yes");
else:
return ("No"); | [
"assert odd_Num_Sum(2) == 82",
"assert odd_Num_Sum(3) == 707",
"assert odd_Num_Sum(4) == 3108"
] | [] | |
808 | Write a python function to count number of vowels in the string. | def Odd_Length_Sum(arr):
Sum = 0
l = len(arr)
for i in range(l):
Sum += ((((i + 1) *(l - i) + 1) // 2) * arr[i])
return Sum | [
"assert num_position(\"there are 70 flats in this apartment\")==10",
"assert num_position(\"every adult have 32 teeth\")==17",
"assert num_position(\"isha has 79 chocolates in her bag\")==9"
] | [] | |
753 | Write a function to convert rgb color to hsv color. | def get_product(val) :
res = 1
for ele in val:
res *= ele
return res
def find_k_product(test_list, K):
res = get_product([sub[K] for sub in test_list])
return (res) | [
"assert check_tuples((3, 5, 6, 5, 3, 6),[3, 6, 5]) == True",
"assert check_tuples((4, 5, 6, 4, 6, 5),[4, 5, 6]) == True",
"assert check_tuples((9, 8, 7, 6, 8, 9),[9, 8, 1]) == False"
] | [] | |
964 | Write a python function to find the minimum number of swaps required to convert one binary string to another. | def validity_triangle(a,b,c):
total = a + b + c
if total == 180:
return True
else:
return False | [
"assert toggle_middle_bits(9) == 15",
"assert toggle_middle_bits(10) == 12",
"assert toggle_middle_bits(11) == 13"
] | [] | |
624 | Write a function to solve tiling problem. | def count_list(input_list):
return (len(input_list))**2 | [
"assert Average([15, 9, 55, 41, 35, 20, 62, 49]) == 35.75",
"assert Average([4, 5, 1, 2, 9, 7, 10, 8]) == 5.75",
"assert Average([1,2,3]) == 2"
] | [] | |
689 | Write a python function to set the right most unset bit. | import math
def lateralsurface_cone(r,h):
l = math.sqrt(r * r + h * h)
LSA = math.pi * r * l
return LSA | [
"assert find_fixed_point([-10, -1, 0, 3, 10, 11, 30, 50, 100],9) == 3",
"assert find_fixed_point([1, 2, 3, 4, 5, 6, 7, 8],8) == -1",
"assert find_fixed_point([0, 2, 5, 8, 17],5) == 0"
] | [] | |
682 | Write a function to re-arrange the given tuples based on the given ordered list. | def adjac(ele, sub = []):
if not ele:
yield sub
else:
yield from [idx for j in range(ele[0] - 1, ele[0] + 2)
for idx in adjac(ele[1:], sub + [j])]
def get_coordinates(test_tup):
res = list(adjac(test_tup))
return (res) | [
"assert increment_numerics([\"MSM\", \"234\", \"is\", \"98\", \"123\", \"best\", \"4\"] , 6) == ['MSM', '240', 'is', '104', '129', 'best', '10']",
"assert increment_numerics([\"Dart\", \"356\", \"is\", \"88\", \"169\", \"Super\", \"6\"] , 12) == ['Dart', '368', 'is', '100', '181', 'Super', '18']",
"assert incre... | [] | |
646 | Write a function to group the 1st elements on the basis of 2nd elements in the given tuple list. | def min_sum_path(A):
memo = [None] * len(A)
n = len(A) - 1
for i in range(len(A[n])):
memo[i] = A[n][i]
for i in range(len(A) - 2, -1,-1):
for j in range( len(A[i])):
memo[j] = A[i][j] + min(memo[j],
memo[j + 1])
return memo[0] | [
"assert nth_nums([1, 2, 3, 4, 5, 6, 7, 8, 9, 10],2)==[1, 4, 9, 16, 25, 36, 49, 64, 81, 100]",
"assert nth_nums([10,20,30],3)==([1000, 8000, 27000])",
"assert nth_nums([12,15],5)==([248832, 759375])"
] | [] | |
621 | Write a function to find the n-th power of individual elements in a list using lambda function. | def heap_sort(arr):
heapify(arr)
end = len(arr) - 1
while end > 0:
arr[end], arr[0] = arr[0], arr[end]
shift_down(arr, 0, end - 1)
end -= 1
return arr
def heapify(arr):
start = len(arr) // 2
while start >= 0:
shift_down(arr, start, len(arr) - 1)
... | [
"assert grouping_dictionary([('yellow', 1), ('blue', 2), ('yellow', 3), ('blue', 4), ('red', 1)])== ({'yellow': [1, 3], 'blue': [2, 4], 'red': [1]})",
"assert grouping_dictionary([('yellow', 10), ('blue', 20), ('yellow', 30), ('blue', 40), ('red', 10)])== ({'yellow': [10, 30], 'blue': [20, 40], 'red': [10]})",
... | [] | |
799 | Write a function to check whether the given amount has no profit and no loss | def check_Type_Of_Triangle(a,b,c):
sqa = pow(a,2)
sqb = pow(b,2)
sqc = pow(c,2)
if (sqa == sqa + sqb or sqb == sqa + sqc or sqc == sqa + sqb):
return ("Right-angled Triangle")
elif (sqa > sqc + sqb or sqb > sqa + sqc or sqc > sqa + sqb):
return ("Obtuse-angled Triangle"... | [
"assert lcm(4,6) == 12",
"assert lcm(15,17) == 255",
"assert lcm(2,6) == 6"
] | [] | |
801 | Write a function to multiply two lists using map and lambda function. | def count_Pairs(arr,n):
cnt = 0;
for i in range(n):
for j in range(i + 1,n):
if (arr[i] == arr[j]):
cnt += 1;
return cnt; | [
"assert sum_of_odd_Factors(30) == 24",
"assert sum_of_odd_Factors(18) == 13",
"assert sum_of_odd_Factors(2) == 1"
] | [] | |
695 | Write a function to find whether an array is subset of another array. | def pair_wise(l1):
temp = []
for i in range(len(l1) - 1):
current_element, next_element = l1[i], l1[i + 1]
x = (current_element, next_element)
temp.append(x)
return temp | [
"assert count_Fac(24) == 3",
"assert count_Fac(12) == 2",
"assert count_Fac(4) == 1"
] | [] | |
779 | Write a python function to find the sum of xor of all pairs of numbers in the given array. | def min_Swaps(str1,str2) :
count = 0
for i in range(len(str1)) :
if str1[i] != str2[i] :
count += 1
if count % 2 == 0 :
return (count // 2)
else :
return ("Not Possible") | [
"assert wind_chill(120,35)==40",
"assert wind_chill(40,70)==86",
"assert wind_chill(10,100)==116"
] | [] | |
729 | Write a function to find the minimum number of platforms required for a railway/bus station. | def string_length(str1):
count = 0
for char in str1:
count += 1
return count | [
"assert recur_gcd(12,14) == 2",
"assert recur_gcd(13,17) == 1",
"assert recur_gcd(9, 3) == 3"
] | [] | |
905 | Write a function to check whether the given ip address is valid or not using regex. | def sum_num(numbers):
total = 0
for x in numbers:
total += x
return total/len(numbers) | [
"assert find_Index(2) == 4",
"assert find_Index(3) == 14",
"assert find_Index(4) == 45"
] | [] | |
676 | Write a function to count the number of elements in a list which are within a specific range. | def extract_unique(test_dict):
res = list(sorted({ele for val in test_dict.values() for ele in val}))
return res | [
"assert check_valid((True, True, True, True) ) == True",
"assert check_valid((True, False, True, True) ) == False",
"assert check_valid((True, True, True, True) ) == True"
] | [] | |
684 | Write a function to find the cumulative sum of all the values that are present in the given tuple list. | def count_Rotation(arr,n):
for i in range (1,n):
if (arr[i] < arr[i - 1]):
return i
return 0 | [
"assert check_substring(\"dreams for dreams makes life fun\", \"makes\") == 'string doesnt start with the given substring'",
"assert check_substring(\"Hi there how are you Hi alex\", \"Hi\") == 'string starts with the given substring'",
"assert check_substring(\"Its been a long day\", \"been\") == 'string doesn... | [] | |
697 | Write a function to zip two given lists of lists. | from collections import Counter
def anagram_lambda(texts,str):
result = list(filter(lambda x: (Counter(str) == Counter(x)), texts))
return result | [
"assert lateralsurface_cone(5,12)==204.20352248333654",
"assert lateralsurface_cone(10,15)==566.3586699569488",
"assert lateralsurface_cone(19,17)==1521.8090132193388"
] | [] | |
626 | Write a function to multiply the adjacent elements of the given tuple. | def add_tuple(test_list, test_tup):
test_list += test_tup
return (test_list) | [
"assert n_common_words(\"python is a programming language\",1)==[('python', 1)]",
"assert n_common_words(\"python is a programming language\",1)==[('python', 1)]",
"assert n_common_words(\"python is a programming language\",5)==[('python', 1),('is', 1), ('a', 1), ('programming', 1), ('language', 1)]"
] | [] | |
775 | Write a function to find the maximum of nth column from the given tuple list. | import math
def sum_of_odd_Factors(n):
res = 1
while n % 2 == 0:
n = n // 2
for i in range(3,int(math.sqrt(n) + 1)):
count = 0
curr_sum = 1
curr_term = 1
while n % i == 0:
count+=1
n = n // i
curr_term *= i
... | [
"assert min_Num([1,2,3,4,5,6,7,8,9],9) == 1",
"assert min_Num([1,2,3,4,5,6,7,8],8) == 2",
"assert min_Num([1,2,3],3) == 2"
] | [] | |
762 | Write a function to sort a list in a dictionary. | def rombus_perimeter(a):
perimeter=4*a
return perimeter | [
"assert get_ludic(10) == [1, 2, 3, 5, 7]",
"assert get_ludic(25) == [1, 2, 3, 5, 7, 11, 13, 17, 23, 25]",
"assert get_ludic(45) == [1, 2, 3, 5, 7, 11, 13, 17, 23, 25, 29, 37, 41, 43]"
] | [] | |
843 | Write a python function to merge the first and last elements separately in a list of lists. | from collections import Counter
def add_dict(d1,d2):
add_dict = Counter(d1) + Counter(d2)
return add_dict | [
"assert remove_list_range([[2], [0], [1, 2, 3], [0, 1, 2, 3, 6, 7], [9, 11], [13, 14, 15, 17]],13,17)==[[13, 14, 15, 17]]",
"assert remove_list_range([[2], [0], [1, 2, 3], [0, 1, 2, 3, 6, 7], [9, 11], [13, 14, 15, 17]],1,3)==[[2], [1, 2, 3]]",
"assert remove_list_range([[2], [0], [1, 2, 3], [0, 1, 2, 3, 6, 7], ... | [] | |
966 | Write a function to clear the values of the given tuples. | def sorted_models(models):
sorted_models = sorted(models, key = lambda x: x['color'])
return sorted_models | [
"assert replace_spaces(\"My Name is Dawood\") == 'My%20Name%20is%20Dawood'",
"assert replace_spaces(\"I am a Programmer\") == 'I%20am%20a%20Programmer'",
"assert replace_spaces(\"I love Coding\") == 'I%20love%20Coding'"
] | [] | |
730 | Write a function to check if one tuple is a subset of another tuple. | def get_median(arr1, arr2, n):
i = 0
j = 0
m1 = -1
m2 = -1
count = 0
while count < n + 1:
count += 1
if i == n:
m1 = m2
m2 = arr2[0]
break
elif j == n:
m1 = m2
m2 = arr1[0]
break
if arr1[i] <= arr2[j]:
m1 = m2
m2 = arr1[i]
... | [
"assert rgb_to_hsv(255, 255, 255)==(0, 0.0, 100.0)",
"assert rgb_to_hsv(0, 215, 0)==(120.0, 100.0, 84.31372549019608)",
"assert rgb_to_hsv(10, 215, 110)==(149.26829268292684, 95.34883720930233, 84.31372549019608)"
] | [] | |
700 | Write a python function to get the position of rightmost set bit. | def is_Two_Alter(s):
for i in range (len( s) - 2) :
if (s[i] != s[i + 2]) :
return False
if (s[0] == s[1]):
return False
return True | [
"assert remove_duplicate(\"Python Exercises Practice Solution Exercises\")==(\"Python Exercises Practice Solution\")",
"assert remove_duplicate(\"Python Exercises Practice Solution Python\")==(\"Python Exercises Practice Solution\")",
"assert remove_duplicate(\"Python Exercises Practice Solution Practice\")==(\... | [] | |
960 | Write a python function to find the first repeated character in a given string. | import re
def pass_validity(p):
x = True
while x:
if (len(p)<6 or len(p)>12):
break
elif not re.search("[a-z]",p):
break
elif not re.search("[0-9]",p):
break
elif not re.search("[A-Z]",p):
break
elif not re.search("[$#@]",p):
break
elif r... | [
"assert sort_tuple([(\"Amana\", 28), (\"Zenat\", 30), (\"Abhishek\", 29),(\"Nikhil\", 21), (\"B\", \"C\")]) == [('Abhishek', 29), ('Amana', 28), ('B', 'C'), ('Nikhil', 21), ('Zenat', 30)]",
"assert sort_tuple([(\"aaaa\", 28), (\"aa\", 30), (\"bab\", 29), (\"bb\", 21), (\"csa\", \"C\")]) == [('aa', 30), ('aaaa', 2... | [] | |
679 | Write a python function to find even numbers from a mixed list. | def get_odd_occurence(arr, arr_size):
for i in range(0, arr_size):
count = 0
for j in range(0, arr_size):
if arr[i] == arr[j]:
count += 1
if (count % 2 != 0):
return arr[i]
return -1 | [
"assert count_Rotation([3,2,1],3) == 1",
"assert count_Rotation([4,5,1,2,3],5) == 2",
"assert count_Rotation([7,8,9,1,2,3],6) == 3"
] | [] | |
776 | Write a python function to replace multiple occurence of character by single. | from collections import Counter
def max_char(str1):
temp = Counter(str1)
max_char = max(temp, key = temp.get)
return max_char | [
"assert convert([1,2,3]) == 123",
"assert convert([4,5,6]) == 456",
"assert convert([7,8,9]) == 789"
] | [] | |
726 | Write a function to calculate the sum of all digits of the base to the specified power. | def ntimes_list(nums,n):
result = map(lambda x:n*x, nums)
return list(result) | [
"assert are_Equal([1,2,3],[3,2,1],3,3) == True",
"assert are_Equal([1,1,1],[2,2,2],3,3) == False",
"assert are_Equal([8,9],[4,5,6],2,3) == False"
] | [] | |
882 | Write a function to find numbers divisible by m or n from a list of numbers using lambda function. | import re
pattern = 'fox'
text = 'The quick brown fox jumps over the lazy dog.'
def find_literals(text, pattern):
match = re.search(pattern, text)
s = match.start()
e = match.end()
return (match.re.pattern, s, e) | [
"assert sum_of_square(4) == 70",
"assert sum_of_square(5) == 252",
"assert sum_of_square(2) == 6"
] | [] | |
920 | Write a function to count number of lists in a given list of lists and square the count. | def roman_to_int(s):
rom_val = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1000}
int_val = 0
for i in range(len(s)):
if i > 0 and rom_val[s[i]] > rom_val[s[i - 1]]:
int_val += rom_val[s[i]] - 2 * rom_val[s[i - 1]]
else:
... | [
"assert check_none((10, 4, 5, 6, None)) == True",
"assert check_none((7, 8, 9, 11, 14)) == False",
"assert check_none((1, 2, 3, 4, None)) == True"
] | [] | |
887 | Write a function to find out, if the given number is abundant. | def increment_numerics(test_list, K):
res = [str(int(ele) + K) if ele.isdigit() else ele for ele in test_list]
return res | [
"assert change_date_format('2026-01-02')=='02-01-2026'",
"assert change_date_format('2021-01-04')=='04-01-2021'",
"assert change_date_format('2030-06-06')=='06-06-2030'"
] | [] | |
696 | Write a function to add a dictionary to the tuple. | def smallest_multiple(n):
if (n<=2):
return n
i = n * 2
factors = [number for number in range(n, 1, -1) if number * 2 > n]
while True:
for a in factors:
if i % a != 0:
i += n
break
if (a == factors[-1] and i % a == 0):
... | [
"assert pair_wise([1,1,2,3,3,4,4,5])==[(1, 1), (1, 2), (2, 3), (3, 3), (3, 4), (4, 4), (4, 5)]",
"assert pair_wise([1,5,7,9,10])==[(1, 5), (5, 7), (7, 9), (9, 10)]",
"assert pair_wise([1,2,3,4,5,6,7,8,9,10])==[(1, 2), (2, 3), (3, 4), (4, 5), (5, 6), (6, 7), (7, 8), (8, 9), (9, 10)]"
] | [] | |
656 | Write a function to count the number of inversions in the given array. | def remove_negs(num_list):
for item in num_list:
if item < 0:
num_list.remove(item)
return num_list | [
"assert extract_elements([1, 1, 3, 4, 4, 5, 6, 7],2)==[1, 4]",
"assert extract_elements([0, 1, 2, 3, 4, 4, 4, 4, 5, 7],4)==[4]",
"assert extract_elements([0,0,0,0,0],5)==[0]"
] | [] | |
909 | Write a function to find the longest common subsequence for the given three string sequence. | def Sum(N):
SumOfPrimeDivisors = [0]*(N + 1)
for i in range(2,N + 1) :
if (SumOfPrimeDivisors[i] == 0) :
for j in range(i,N + 1,i) :
SumOfPrimeDivisors[j] += i
return SumOfPrimeDivisors[N] | [
"assert generate_matrix(3)==[[1, 2, 3], [8, 9, 4], [7, 6, 5]] ",
"assert generate_matrix(2)==[[1,2],[4,3]]",
"assert generate_matrix(7)==[[1, 2, 3, 4, 5, 6, 7], [24, 25, 26, 27, 28, 29, 8], [23, 40, 41, 42, 43, 30, 9], [22, 39, 48, 49, 44, 31, 10], [21, 38, 47, 46, 45, 32, 11], [20, 37, 36, 35, 34, 33, 12], [19... | [] | |
716 | Write a function to group a sequence of key-value pairs into a dictionary of lists using collections module. | def int_to_roman( num):
val = [1000, 900, 500, 400,100, 90, 50, 40,10, 9, 5, 4,1]
syb = ["M", "CM", "D", "CD","C", "XC", "L", "XL","X", "IX", "V", "IV","I"]
roman_num = ''
i = 0
while num > 0:
for _ in range(num // val[i]):
roman_num += syb[i]
... | [
"assert max_sum_subseq([1, 2, 9, 4, 5, 0, 4, 11, 6]) == 26",
"assert max_sum_subseq([1, 2, 9, 5, 6, 0, 5, 12, 7]) == 28",
"assert max_sum_subseq([1, 3, 10, 5, 6, 0, 6, 14, 21]) == 44"
] | [] | |
627 | Write a function that matches a string that has an a followed by zero or one 'b'. | def min_Swaps(s1,s2) :
c0 = 0; c1 = 0;
for i in range(len(s1)) :
if (s1[i] == '0' and s2[i] == '1') :
c0 += 1;
elif (s1[i] == '1' and s2[i] == '0') :
c1 += 1;
result = c0 // 2 + c1 // 2;
if (c0 % 2 == 0 and c1 % 2 == 0) :
return r... | [
"assert set_Right_most_Unset_Bit(21) == 23",
"assert set_Right_most_Unset_Bit(11) == 15",
"assert set_Right_most_Unset_Bit(15) == 15"
] | [] | |
884 | Write a function to find average value of the numbers in a given tuple of tuples. | def max_sum_of_three_consecutive(arr, n):
sum = [0 for k in range(n)]
if n >= 1:
sum[0] = arr[0]
if n >= 2:
sum[1] = arr[0] + arr[1]
if n > 2:
sum[2] = max(sum[1], max(arr[1] + arr[2], arr[0] + arr[2]))
for i in range(3, n):
sum[i] = max(max(sum[i-1], sum[i-2] + arr[i]), arr[i] + arr[i-1]... | [
"assert sector_area(4,45)==6.285714285714286",
"assert sector_area(9,45)==31.82142857142857",
"assert sector_area(9,360)==None"
] | [] | |
917 | Write a function that matches a word containing 'z', not at the start or end of the word. | from collections import defaultdict
def freq_element(test_tup):
res = defaultdict(int)
for ele in test_tup:
res[ele] += 1
return (str(dict(res))) | [
"assert check_min_heap([1, 2, 3, 4, 5, 6], 0) == True",
"assert check_min_heap([2, 3, 4, 5, 10, 15], 0) == True",
"assert check_min_heap([2, 10, 4, 5, 3, 15], 0) == False"
] | [] | |
636 | Write a python function to check whether the given number is a perfect square or not. | import sys
def find_closet(A, B, C, p, q, r):
diff = sys.maxsize
res_i = 0
res_j = 0
res_k = 0
i = 0
j = 0
k = 0
while(i < p and j < q and k < r):
minimum = min(A[i], min(B[j], C[k]))
maximum = max(A[i], max(B[j], C[k]));
if maximum-minimum < diff:
res_i = i
res_j = j
re... | [
"assert remove_length('The person is most value tet', 3) == 'person is most value'",
"assert remove_length('If you told me about this ok', 4) == 'If you me about ok'",
"assert remove_length('Forces of darkeness is come into the play', 4) == 'Forces of darkeness is the'"
] | [] | |
896 | Write a function to compute maximum product of three numbers of a given array of integers using heap queue algorithm. | def second_smallest(numbers):
if (len(numbers)<2):
return
if ((len(numbers)==2) and (numbers[0] == numbers[1]) ):
return
dup_items = set()
uniq_items = []
for x in numbers:
if x not in dup_items:
uniq_items.append(x)
dup_items.add(x)
uniq_items.sort()
return uniq_... | [
"assert occurance_substring('python programming, python language','python')==('python', 0, 6)",
"assert occurance_substring('python programming,programming language','programming')==('programming', 7, 18)",
"assert occurance_substring('python programming,programming language','language')==('language', 31, 39)"
... | [] | |
705 | Write a python function to toggle bits of the number except the first and the last bit. | def Check_Vow(string, vowels):
final = [each for each in string if each in vowels]
return(len(final))
| [
"assert (Diff([10, 15, 20, 25, 30, 35, 40], [25, 40, 35])) == [10, 20, 30, 15]",
"assert (Diff([1,2,3,4,5], [6,7,1])) == [2,3,4,5,6,7]",
"assert (Diff([1,2,3], [6,7,1])) == [2,3,6,7]"
] | [] | |
662 | Write a function to find ln, m lobb number. | M = 100
def maxAverageOfPath(cost, N):
dp = [[0 for i in range(N + 1)] for j in range(N + 1)]
dp[0][0] = cost[0][0]
for i in range(1, N):
dp[i][0] = dp[i - 1][0] + cost[i][0]
for j in range(1, N):
dp[0][j] = dp[0][j - 1] + cost[0][j]
for i in range(1, N):
for j in range(1, N):
dp[i][j] ... | [
"assert reverse_words(\"python program\")==(\"program python\")",
"assert reverse_words(\"java language\")==(\"language java\")",
"assert reverse_words(\"indian man\")==(\"man indian\")"
] | [] | |
763 | Write a function to find the largest subset where each pair is divisible. | def binomial_coeffi(n, k):
if (k == 0 or k == n):
return 1
return (binomial_coeffi(n - 1, k - 1)
+ binomial_coeffi(n - 1, k))
def rencontres_number(n, m):
if (n == 0 and m == 0):
return 1
if (n == 1 and m == 0):
return 0
if (m == 0):
return ((n - 1) * (rencontres_number(n - 1, 0)+ renc... | [
"assert end_num('abcdef')==False",
"assert end_num('abcdef7')==True",
"assert end_num('abc')==False"
] | [] | |
652 | Write a function to get the length of a complex number. | def remove_duplic_list(l):
temp = []
for x in l:
if x not in temp:
temp.append(x)
return temp | [
"assert smallest_multiple(13)==360360",
"assert smallest_multiple(2)==2",
"assert smallest_multiple(1)==1"
] | [] | |
871 | Write a function to flatten the given tuple matrix into the tuple list with each tuple representing each column. | def dealnnoy_num(n, m):
if (m == 0 or n == 0) :
return 1
return dealnnoy_num(m - 1, n) + dealnnoy_num(m - 1, n - 1) + dealnnoy_num(m, n - 1) | [
"assert max_chain_length([Pair(5, 24), Pair(15, 25),Pair(27, 40), Pair(50, 60)], 4) == 3",
"assert max_chain_length([Pair(1, 2), Pair(3, 4),Pair(5, 6), Pair(7, 8)], 4) == 4",
"assert max_chain_length([Pair(19, 10), Pair(11, 12),Pair(13, 14), Pair(15, 16), Pair(31, 54)], 5) == 5"
] | [] | |
878 | Write a python function to check whether the given string is made up of two alternating characters or not. | import bisect
def left_insertion(a, x):
i = bisect.bisect_left(a, x)
return i | [
"assert min_sum_path([[ 2 ], [3, 9 ], [1, 6, 7 ]]) == 6",
"assert min_sum_path([[ 2 ], [3, 7 ], [8, 5, 6 ]]) == 10 ",
"assert min_sum_path([[ 3 ], [6, 4 ], [5, 2, 7 ]]) == 9"
] | [] | |
681 | Write a function to find the index of the first occurrence of a given number in a sorted array. | from collections import Counter
def most_common_elem(s,a):
most_common_elem=Counter(s).most_common(a)
return most_common_elem | [
"assert perimeter_polygon(4,20)==80",
"assert perimeter_polygon(10,15)==150",
"assert perimeter_polygon(9,7)==63"
] | [] | |
932 | Write a python function to count the total set bits from 1 to n. | def max_of_two( x, y ):
if x > y:
return x
return y | [
"assert Repeat([10, 20, 30, 20, 20, 30, 40, 50, -20, 60, 60, -20, -20]) == [20, 30, -20, 60]",
"assert Repeat([-1, 1, -1, 8]) == [-1]",
"assert Repeat([1, 2, 3, 1, 2,]) == [1, 2]"
] | [] | |
702 | Write a function to calculate the sum of series 1³+2³+3³+….+n³. | def remove_list_range(list1, leftrange, rigthrange):
result = [i for i in list1 if (min(i)>=leftrange and max(i)<=rigthrange)]
return result | [
"assert rotate_right([1, 2, 3, 4, 5, 6, 7, 8, 9, 10],3,4)==[8, 9, 10, 1, 2, 3, 4, 5, 6]",
"assert rotate_right([1, 2, 3, 4, 5, 6, 7, 8, 9, 10],2,2)==[9, 10, 1, 2, 3, 4, 5, 6, 7, 8]",
"assert rotate_right([1, 2, 3, 4, 5, 6, 7, 8, 9, 10],5,2)==[6, 7, 8, 9, 10, 1, 2, 3, 4, 5, 6, 7, 8]"
] | [] | |
787 | Write a function that gives profit amount if the given amount has profit else return none. | import sys
def find_max_val(n, x, y):
ans = -sys.maxsize
for k in range(n + 1):
if (k % x == y):
ans = max(ans, k)
return (ans if (ans >= 0 and
ans <= n) else -1) | [
"assert count_Char(\"abcac\",'a') == 4",
"assert count_Char(\"abca\",'c') == 2",
"assert count_Char(\"aba\",'a') == 7"
] | [] | |
718 | Write a function to find the product of it’s kth index in the given tuples. | def check_Odd_Parity(x):
parity = 0
while (x != 0):
x = x & (x - 1)
parity += 1
if (parity % 2 == 1):
return True
else:
return False | [
"assert sort_by_dnf([1,2,0,1,0,1,2,1,1], 9) == [0, 0, 1, 1, 1, 1, 1, 2, 2]",
"assert sort_by_dnf([1,0,0,1,2,1,2,2,1,0], 10) == [0, 0, 0, 1, 1, 1, 1, 2, 2, 2]",
"assert sort_by_dnf([2,2,1,0,0,0,1,1,2,1], 10) == [0, 0, 0, 1, 1, 1, 1, 2, 2, 2]"
] | [] | |
657 | Write a python function to check whether the count of divisors is even or odd. | def average_tuple(nums):
result = [sum(x) / len(x) for x in zip(*nums)]
return result | [
"assert get_key({1:'python',2:'java'})==[1,2]",
"assert get_key({10:'red',20:'blue',30:'black'})==[10,20,30]",
"assert get_key({27:'language',39:'java',44:'little'})==[27,39,44]"
] | [] | |
921 | Write a python function to count the number of distinct power of prime factor of given number. | def remove_tuple(test_list):
res = [sub for sub in test_list if not all(ele == None for ele in sub)]
return (str(res)) | [
"assert is_upper(\"person\") ==\"PERSON\"",
"assert is_upper(\"final\") == \"FINAL\"",
"assert is_upper(\"Valid\") == \"VALID\""
] | [] | |
833 | Write a function to find the length of the longest sub-sequence such that elements in the subsequences are consecutive integers. | def max_product(arr):
arr_len = len(arr)
if (arr_len < 2):
return None
x = arr[0]; y = arr[1]
for i in range(0, arr_len):
for j in range(i + 1, arr_len):
if (arr[i] * arr[j] > x * y):
x = arr[i]; y = arr[j]
return x,y | [
"assert remove_all_spaces('python program')==('pythonprogram')",
"assert remove_all_spaces('python programming language')==('pythonprogramminglanguage')",
"assert remove_all_spaces('python program')==('pythonprogram')"
] | [] | |
865 | Write a function to check if the given tuple contains all valid values or not. | def remove_nested(test_tup):
res = tuple()
for count, ele in enumerate(test_tup):
if not isinstance(ele, tuple):
res = res + (ele, )
return (res) | [
"assert text_match(\"aabbbbd\") == 'Not matched!'",
"assert text_match(\"aabAbbbc\") == 'Not matched!'",
"assert text_match(\"accddbbjjjb\") == 'Found a match!'"
] | [] | |
904 | Write a function to reverse words in a given string. | def min_Num(arr,n):
odd = 0
for i in range(n):
if (arr[i] % 2):
odd += 1
if (odd % 2):
return 1
return 2 | [
"assert min_Jumps(3,4,11)==3.5",
"assert min_Jumps(3,4,0)==0",
"assert min_Jumps(11,14,11)==1"
] | [] | |
793 | Write a function to check if any list element is present in the given list. | from itertools import combinations
def sub_lists(my_list):
subs = []
for i in range(0, len(my_list)+1):
temp = [list(x) for x in combinations(my_list, i)]
if len(temp)>0:
subs.extend(temp)
return subs | [
"assert removals([1, 3, 4, 9, 10,11, 12, 17, 20], 9, 4) == 5",
"assert removals([1, 5, 6, 2, 8], 5, 2) == 3",
"assert removals([1, 2, 3 ,4, 5, 6], 6, 3) == 2"
] | [] | |
807 | Write a python function to interchange first and last elements in a given list. | def count_Char(str,x):
count = 0
for i in range(len(str)):
if (str[i] == x) :
count += 1
n = 10
repititions = n // len(str)
count = count * repititions
l = n % len(str)
for i in range(l):
if (str[i] == x):
count += 1
return... | [
"assert sum_num((8, 2, 3, 0, 7))==4.0",
"assert sum_num((-10,-20,-30))==-20.0",
"assert sum_num((19,15,18))==17.333333333333332"
] | [] | |
675 | Write a function to count number of unique lists within a list. | def multiply_elements(test_tup):
res = tuple(i * j for i, j in zip(test_tup, test_tup[1:]))
return (res) | [
"assert div_of_nums([19, 65, 57, 39, 152, 639, 121, 44, 90, 190],19,13)==[19, 65, 57, 39, 152, 190]",
"assert div_of_nums([1, 2, 3, 5, 7, 8, 10],2,5)==[2, 5, 8, 10]",
"assert div_of_nums([10,15,14,13,18,12,20],10,5)==[10, 15, 20]"
] | [] | |
654 | Write a function to check if the triangle is valid or not. | def is_triangleexists(a,b,c):
if(a != 0 and b != 0 and c != 0 and (a + b + c)== 180):
if((a + b)>= c or (b + c)>= a or (a + c)>= b):
return True
else:
return False
else:
return False | [
"assert find_literals('The quick brown fox jumps over the lazy dog.', 'fox') == ('fox', 16, 19)",
"assert find_literals('Its been a very crazy procedure right', 'crazy') == ('crazy', 16, 21)",
"assert find_literals('Hardest choices required strongest will', 'will') == ('will', 35, 39)"
] | [] | |
925 | Write a python function to find the minimum difference between any two elements in a given array. | def extract_index_list(l1, l2, l3):
result = []
for m, n, o in zip(l1, l2, l3):
if (m == n == o):
result.append(m)
return result | [
"assert int_to_roman(1)==(\"I\")",
"assert int_to_roman(50)==(\"L\")",
"assert int_to_roman(4)==(\"IV\")"
] | [] | |
745 | Write a function to find length of the string. | def lcm(x, y):
if x > y:
z = x
else:
z = y
while(True):
if((z % x == 0) and (z % y == 0)):
lcm = z
break
z += 1
return lcm | [
"assert cube_Sum(2) == 28",
"assert cube_Sum(3) == 153",
"assert cube_Sum(4) == 496"
] | [] | |
677 | Write a python function to check whether a sequence of numbers has an increasing trend or not. | def super_seq(X, Y, m, n):
if (not m):
return n
if (not n):
return m
if (X[m - 1] == Y[n - 1]):
return 1 + super_seq(X, Y, m - 1, n - 1)
return 1 + min(super_seq(X, Y, m - 1, n), super_seq(X, Y, m, n - 1)) | [
"assert max_run_uppercase('GeMKSForGERksISBESt') == 5",
"assert max_run_uppercase('PrECIOusMOVemENTSYT') == 6",
"assert max_run_uppercase('GooGLEFluTTER') == 4"
] | [] | |
612 | Write a python function to convert the given string to upper case. | def check_identical(test_list1, test_list2):
res = test_list1 == test_list2
return (res) | [
"assert area_tetrahedron(3)==15.588457268119894",
"assert area_tetrahedron(20)==692.8203230275509",
"assert area_tetrahedron(10)==173.20508075688772"
] | [] | |
835 | Write a python function to copy a list from a singleton tuple. | def tuple_str_int(test_str):
res = tuple(int(num) for num in test_str.replace('(', '').replace(')', '').replace('...', '').split(', '))
return (res) | [
"assert smallest_Divisor(10) == 2",
"assert smallest_Divisor(25) == 5",
"assert smallest_Divisor(31) == 31"
] | [] | |
629 | Write a python function to check whether an array contains only one distinct element or not. | INT_BITS = 32
def left_Rotate(n,d):
return (n << d)|(n >> (INT_BITS - d)) | [
"assert reverse_list_lists([[1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16]])==[[4, 3, 2, 1], [8, 7, 6, 5], [12, 11, 10, 9], [16, 15, 14, 13]]",
"assert reverse_list_lists([[1,2],[2,3],[3,4]])==[[2,1],[3,2],[4,3]]",
"assert reverse_list_lists([[10,20],[30,40]])==[[20,10],[40,30]]"
] | [] | |
611 | Write a function to sort a given list of strings of numbers numerically. | def max_similar_indices(test_list1, test_list2):
res = [(max(x[0], y[0]), max(x[1], y[1]))
for x, y in zip(test_list1, test_list2)]
return (res) | [
"assert find_longest_conseq_subseq([1, 2, 2, 3], 4) == 3",
"assert find_longest_conseq_subseq([1, 9, 3, 10, 4, 20, 2], 7) == 4",
"assert find_longest_conseq_subseq([36, 41, 56, 35, 44, 33, 34, 92, 43, 32, 42], 11) == 5"
] | [] | |
828 | Write a function to extract specified number of elements from a given list, which follow each other continuously. | def sum_Square(n) :
i = 1
while i*i <= n :
j = 1
while (j*j <= n) :
if (i*i+j*j == n) :
return True
j = j+1
i = i+1
return False | [
"assert remove_even([1,3,5,2]) == [1,3,5]",
"assert remove_even([5,6,7]) == [5,7]",
"assert remove_even([1,2,3,4]) == [1,3]"
] | [] | |
758 | Write a python function to check whether every odd index contains odd numbers of a given list. | from itertools import groupby
def consecutive_duplicates(nums):
return [key for key, group in groupby(nums)] | [
"assert max_similar_indices([(2, 4), (6, 7), (5, 1)],[(5, 4), (8, 10), (8, 14)]) == [(5, 4), (8, 10), (8, 14)]",
"assert max_similar_indices([(3, 5), (7, 8), (6, 2)],[(6, 5), (9, 11), (9, 15)]) == [(6, 5), (9, 11), (9, 15)]",
"assert max_similar_indices([(4, 6), (8, 9), (7, 3)],[(7, 6), (10, 12), (10, 16)]) == ... | [] | |
957 | Write a python function to check if the string is a concatenation of another string. | def discriminant_value(x,y,z):
discriminant = (y**2) - (4*x*z)
if discriminant > 0:
return ("Two solutions",discriminant)
elif discriminant == 0:
return ("one solution",discriminant)
elif discriminant < 0:
return ("no real solution",discriminant) | [
"assert harmonic_sum(10)==2.9289682539682538",
"assert harmonic_sum(4)==2.083333333333333",
"assert harmonic_sum(7)==2.5928571428571425 "
] | [] | |
613 | Write a function to count those characters which have vowels as their neighbors in the given string. | def lower_ctr(str):
lower_ctr= 0
for i in range(len(str)):
if str[i] >= 'a' and str[i] <= 'z': lower_ctr += 1
return lower_ctr | [
"assert get_unique([(3, 4), (1, 2), (2, 4), (8, 2), (7, 2), (8, 1), (9, 1), (8, 4), (10, 4)] ) == '{4: 4, 2: 3, 1: 2}'",
"assert get_unique([(4, 5), (2, 3), (3, 5), (9, 3), (8, 3), (9, 2), (10, 2), (9, 5), (11, 5)] ) == '{5: 4, 3: 3, 2: 2}'",
"assert get_unique([(6, 5), (3, 4), (2, 6), (11, 1), (8, 22), (8, 11)... | [] |
End of preview. Expand in Data Studio
edition_0670_google-research-datasets-mbpp-readymade
A Readymade by TheFactoryX
Original Dataset
Process
This dataset is a "readymade" - inspired by Marcel Duchamp's concept of taking everyday objects and recontextualizing them as art.
What we did:
- Selected the original dataset from Hugging Face
- Shuffled each column independently
- Destroyed all row-wise relationships
- Preserved structure, removed meaning
The result: Same data. Wrong order. New meaning. No meaning.
Purpose
This is art. This is not useful. This is the point.
Column relationships have been completely destroyed. The data maintains its types and values, but all semantic meaning has been removed.
Part of the Readymades project by TheFactoryX.
"I am a machine." — Andy Warhol
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