task_id int64 601 974 | text large_stringlengths 38 249 | code large_stringlengths 30 908 | test_list listlengths 3 3 | test_setup_code large_stringclasses 2
values | challenge_test_list listlengths 0 0 |
|---|---|---|---|---|---|
743 | Write a python function to remove spaces from a given string. | 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_Solution(2,5,2) == \"2 solutions\"",
"assert Check_Solution(1,1,1) == \"No solutions\"",
"assert Check_Solution(1,2,1) == \"1 solution\""
] | [] | |
758 | Write a function to solve tiling problem. | def re_arrange_tuples(test_list, ord_list):
temp = dict(test_list)
res = [(key, temp[key]) for key in ord_list]
return (res) | [
"assert floor_Max(11,10,9) == 9",
"assert floor_Max(5,7,4) == 2",
"assert floor_Max(2,2,1) == 1"
] | [] | |
618 | Write a function to convert tuple string to integer tuple. | def sort_dict_item(test_dict):
res = {key: test_dict[key] for key in sorted(test_dict.keys(), key = lambda ele: ele[1] * ele[0])}
return (res)
| [
"assert max_occurrences([2,3,8,4,7,9,8,2,6,5,1,6,1,2,3,4,6,9,1,2])==2",
"assert max_occurrences([1, 3,5, 7,1, 3,13, 15, 17,5, 7,9,1, 11])==1",
"assert max_occurrences([1, 2, 3,2, 4, 5,1, 1, 1])==1"
] | [] | |
823 | Write a function to multiply two lists using map and lambda function. | def reverse_words(s):
return ' '.join(reversed(s.split())) | [
"assert even_num(13.5)==False",
"assert even_num(0)==True",
"assert even_num(-9)==False"
] | [] | |
670 | Write a python function to find the last position of an element in a sorted array. | 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 discriminant_value(4,8,2)==(\"Two solutions\",32)",
"assert discriminant_value(5,7,9)==(\"no real solution\",-131)",
"assert discriminant_value(0,0,9)==(\"one solution\",0)"
] | [] | |
643 | Write a python function to convert the given string to upper case. | from operator import eq
def count_same_pair(nums1, nums2):
result = sum(map(eq, nums1, nums2))
return result | [
"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... | [] | |
751 | Write a python function to reverse an array upto a given position. | def div_list(nums1,nums2):
result = map(lambda x, y: x / y, nums1, nums2)
return list(result) | [
"assert add_list([1, 2, 3],[4,5,6])==[5, 7, 9]",
"assert add_list([1,2],[3,4])==[4,6]",
"assert add_list([10,20],[50,70])==[60,90]"
] | [] | |
943 | Write a function to locate the left insertion point for a specified value in sorted order. | def floor_Min(A,B,N):
x = max(B - 1,N)
return (A*x) // B | [
"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... | [] | |
667 | Write a function to find the nth jacobsthal number. | def unique_sublists(list1):
result ={}
for l in list1:
result.setdefault(tuple(l), list()).append(1)
for a, b in result.items():
result[a] = sum(b)
return result | [
"assert remove_nested((1, 5, 7, (4, 6), 10)) == (1, 5, 7, 10)",
"assert remove_nested((2, 6, 8, (5, 7), 11)) == (2, 6, 8, 11)",
"assert remove_nested((3, 7, 9, (6, 8), 12)) == (3, 7, 9, 12)"
] | [] | |
672 | Write a function to find the nth super ugly number from a given prime list of size k using heap queue algorithm. | def sum_Natural(n):
sum = (n * (n + 1))
return int(sum)
def sum_Even(l,r):
return (sum_Natural(int(r / 2)) - sum_Natural(int((l - 1) / 2))) | [
"assert average_tuple(((10, 10, 10, 12), (30, 45, 56, 45), (81, 80, 39, 32), (1, 2, 3, 4)))==[30.5, 34.25, 27.0, 23.25]",
"assert average_tuple(((1, 1, -5), (30, -15, 56), (81, -60, -39), (-10, 2, 3)))== [25.5, -18.0, 3.75]",
"assert average_tuple( ((100, 100, 100, 120), (300, 450, 560, 450), (810, 800, 390, 32... | [] | |
826 | Write a python function to check whether the product of digits of a number at even and odd places is equal or not. | def check_none(test_tup):
res = any(map(lambda ele: ele is None, test_tup))
return (res) | [
"assert is_Isomorphic(\"paper\",\"title\") == True",
"assert is_Isomorphic(\"ab\",\"ba\") == True",
"assert is_Isomorphic(\"ab\",\"aa\") == False"
] | [] | |
821 | Write a function to calculate the harmonic sum of n-1. | def is_odd(n) :
if (n^1 == n-1) :
return True;
else :
return False; | [
"assert remove_all_spaces('python program')==('pythonprogram')",
"assert remove_all_spaces('python programming language')==('pythonprogramminglanguage')",
"assert remove_all_spaces('python program')==('pythonprogram')"
] | [] | |
708 | Write a function to reverse each list in a given list of lists. | def average_Even(n) :
if (n% 2!= 0) :
return ("Invalid Input")
return -1
sm = 0
count = 0
while (n>= 2) :
count = count+1
sm = sm+n
n = n-2
return sm // count | [
"assert count_Divisors(10) == \"Even\"",
"assert count_Divisors(100) == \"Odd\"",
"assert count_Divisors(125) == \"Even\""
] | [] | |
944 | Write a python function to count number of vowels in the string. | 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 count_Pairs([1,1,1,1],4) == 6",
"assert count_Pairs([1,5,1],3) == 1",
"assert count_Pairs([3,2,1,7,8,9],6) == 0"
] | [] | |
731 | Write a python function to check if the string is a concatenation of another string. | def count_alpha_dig_spl(string):
alphabets=digits = special = 0
for i in range(len(string)):
if(string[i].isalpha()):
alphabets = alphabets + 1
elif(string[i].isdigit()):
digits = digits + 1
else:
special = special + 1
return (alphabets,digits,special) | [
"assert camel_to_snake('GoogleAssistant') == 'google_assistant'",
"assert camel_to_snake('ChromeCast') == 'chrome_cast'",
"assert camel_to_snake('QuadCore') == 'quad_core'"
] | [] | |
911 | Write a function to find the list in a list of lists whose sum of elements is the highest. | def remove_similar_row(test_list):
res = set(sorted([tuple(sorted(set(sub))) for sub in test_list]))
return (res) | [
"assert alternate_elements([\"red\", \"black\", \"white\", \"green\", \"orange\"])==['red', 'white', 'orange']",
"assert alternate_elements([2, 0, 3, 4, 0, 2, 8, 3, 4, 2])==[2, 3, 0, 8, 4]",
"assert alternate_elements([1, 2, 3, 4, 5, 6, 7, 8, 9, 10])==[1,3,5,7,9]"
] | [] | |
681 | Write a function to check whether the given month number contains 28 days or not. | def length_Of_Last_Word(a):
l = 0
x = a.strip()
for i in range(len(x)):
if x[i] == " ":
l = 0
else:
l += 1
return l | [
"assert road_rd(\"ravipadu Road\")==('ravipadu Rd.')",
"assert road_rd(\"palnadu Road\")==('palnadu Rd.')",
"assert road_rd(\"eshwar enclave Road\")==('eshwar enclave Rd.')"
] | [] | |
678 | Write a function to remove all the words with k length in the given string. | def merge(lst):
return [list(ele) for ele in list(zip(*lst))] | [
"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"
] | [] | |
947 | Write a function to push all values into a heap and then pop off the smallest values one at a time. | def last(n):
return n[-1]
def sort_list_last(tuples):
return sorted(tuples, key=last) | [
"assert remove_spaces('python program')==('python program')",
"assert remove_spaces('python programming language')==('python programming language')",
"assert remove_spaces('python program')==('python program')"
] | [] | |
848 | Write a function to find the maximum value in record list as tuple attribute in the given tuple list. | def listify_list(list1):
result = list(map(list,list1))
return result | [
"assert nCr_mod_p(10, 2, 13) == 6",
"assert nCr_mod_p(11, 3, 14) == 11",
"assert nCr_mod_p(18, 14, 19) == 1"
] | [] | |
700 | Write a function to find the maximum sum of subsequences of given array with no adjacent elements. | def find_Min_Diff(arr,n):
arr = sorted(arr)
diff = 10**20
for i in range(n-1):
if arr[i+1] - arr[i] < diff:
diff = arr[i+1] - arr[i]
return diff | [
"assert sub_lists([10, 20, 30, 40])==[[], [10], [20], [30], [40], [10, 20], [10, 30], [10, 40], [20, 30], [20, 40], [30, 40], [10, 20, 30], [10, 20, 40], [10, 30, 40], [20, 30, 40], [10, 20, 30, 40]]",
"assert sub_lists(['X', 'Y', 'Z'])==[[], ['X'], ['Y'], ['Z'], ['X', 'Y'], ['X', 'Z'], ['Y', 'Z'], ['X', 'Y', 'Z'... | [] | |
705 | Write a python function to find sum of prime numbers between 1 to n. | def sorted_dict(dict1):
sorted_dict = {x: sorted(y) for x, y in dict1.items()}
return sorted_dict | [
"assert split_upperstring(\"PythonProgramLanguage\")==['Python','Program','Language']",
"assert split_upperstring(\"PythonProgram\")==['Python','Program']",
"assert split_upperstring(\"ProgrammingLanguage\")==['Programming','Language']"
] | [] | |
724 | Write a function to check if the given tuple contains only k elements. | def tuple_to_set(t):
s = set(t)
return (s) | [
"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"
] | [] | |
604 | Write a function to convert a roman numeral to an integer. | def rectangle_perimeter(l,b):
perimeter=2*(l+b)
return perimeter | [
"assert check_monthnumber_number(6)==True",
"assert check_monthnumber_number(2)==False",
"assert check_monthnumber_number(12)==False"
] | [] | |
951 | Write a function to check whether the given month number contains 30 days or not. | def max_of_three(num1,num2,num3):
if (num1 >= num2) and (num1 >= num3):
lnum = num1
elif (num2 >= num1) and (num2 >= num3):
lnum = num2
else:
lnum = num3
return lnum | [
"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])"
] | [] | |
904 | Write a function to find the maximum number of segments of lengths a, b and c that can be formed from n. | def is_Product_Even(arr,n):
for i in range(0,n):
if ((arr[i] & 1) == 0):
return True
return False | [
"assert sort_dict_item({(5, 6) : 3, (2, 3) : 9, (8, 4): 10, (6, 4): 12} ) == {(2, 3): 9, (6, 4): 12, (5, 6): 3, (8, 4): 10}",
"assert sort_dict_item({(6, 7) : 4, (3, 4) : 10, (9, 5): 11, (7, 5): 13} ) == {(3, 4): 10, (7, 5): 13, (6, 7): 4, (9, 5): 11}",
"assert sort_dict_item({(7, 8) : 5, (4, 5) : 11, (10, 6): ... | [] | |
847 | Write a python function to find the sum of xor of all pairs of numbers in the given array. | 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 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)... | [] | |
935 | Write a python function to copy a list from a singleton tuple. | def check_K(test_tup, K):
res = False
for ele in test_tup:
if ele == K:
res = True
break
return (res) | [
"assert lower_ctr('abc') == 3",
"assert lower_ctr('string') == 6",
"assert lower_ctr('Python') == 5"
] | [] | |
892 | Write a function to count the number of inversions in the given array. | class Pair(object):
def __init__(self, a, b):
self.a = a
self.b = b
def max_chain_length(arr, n):
max = 0
mcl = [1 for i in range(n)]
for i in range(1, n):
for j in range(0, i):
if (arr[i].a > arr[j].b and
mcl[i] < mcl[j] + 1):
mcl[i] = mcl[j] + 1
for i in range(n):
if (ma... | [
"assert count_list([[1, 3], [5, 7], [9, 11], [13, 15, 17]]) == 4",
"assert count_list([[1,2],[2,3],[4,5]]) == 3",
"assert count_list([[1,0],[2,0]]) == 2"
] | [] | |
645 | Write a function to count the pairs of reverse strings in the given string list. | import re
def capital_words_spaces(str1):
return re.sub(r"(\w)([A-Z])", r"\1 \2", str1) | [
"assert float_to_tuple(\"1.2, 1.3, 2.3, 2.4, 6.5\") == (1.2, 1.3, 2.3, 2.4, 6.5)",
"assert float_to_tuple(\"2.3, 2.4, 5.6, 5.4, 8.9\") == (2.3, 2.4, 5.6, 5.4, 8.9)",
"assert float_to_tuple(\"0.3, 0.5, 7.8, 9.4\") == (0.3, 0.5, 7.8, 9.4)"
] | [] | |
791 | Write a function to convert the given string of float type into tuple. | def floor_Max(A,B,N):
x = min(B - 1,N)
return (A*x) // B | [
"assert left_Rotate(16,2) == 64",
"assert left_Rotate(10,2) == 40",
"assert left_Rotate(99,3) == 792"
] | [] | |
715 | Write a function to find the frequency of each element in the given list. | def Check_Solution(a,b,c) :
if ((b*b) - (4*a*c)) > 0 :
return ("2 solutions")
elif ((b*b) - (4*a*c)) == 0 :
return ("1 solution")
else :
return ("No solutions") | [
"assert filter_data({'Cierra Vega': (6.2, 70), 'Alden Cantrell': (5.9, 65), 'Kierra Gentry': (6.0, 68), 'Pierre Cox': (5.8, 66)},6.0,70)=={'Cierra Vega': (6.2, 70)}",
"assert filter_data({'Cierra Vega': (6.2, 70), 'Alden Cantrell': (5.9, 65), 'Kierra Gentry': (6.0, 68), 'Pierre Cox': (5.8, 66)},5.9,67)=={'Cierra ... | [] | |
877 | Write a function to sort the tuples alphabetically by the first item of each tuple. | class Node:
def __init__(self, data):
self.data = data
self.left = None
self.right = None
def max_height(node):
if node is None:
return 0 ;
else :
left_height = max_height(node.left)
right_height = max_height(node.right)
if (left_height > right_height):
return left_height+1
... | [
"assert sum_Range_list([2, 1, 5, 6, 8, 3, 4, 9, 10, 11, 8, 12],8,10) == 29",
"assert sum_Range_list([1,2,3,4,5],1,2) == 5",
"assert sum_Range_list([1,0,1,2,5,6],4,5) == 11"
] | [] | |
886 | Write a python function to find the minimum number of swaps required to convert one binary string to another. | 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 last_Two_Digits(7) == 40",
"assert last_Two_Digits(5) == 20",
"assert last_Two_Digits(2) == 2"
] | [] | |
829 | Write a function to check if each element of second tuple is smaller than its corresponding index in first tuple. | def harmonic_sum(n):
if n < 2:
return 1
else:
return 1 / n + (harmonic_sum(n - 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-... | [] | |
730 | Write a python function to find maximum possible value for the given periodic function. | def sum_column(list1, C):
result = sum(row[C] for row in list1)
return result | [
"assert remove_multiple_spaces('Google Assistant') == 'Google Assistant'",
"assert remove_multiple_spaces('Quad Core') == 'Quad Core'",
"assert remove_multiple_spaces('ChromeCast Built-in') == 'ChromeCast Built-in'"
] | [] | |
620 | Write a function to count the most common character in a given string. | def all_Characters_Same(s) :
n = len(s)
for i in range(1,n) :
if s[i] != s[0] :
return False
return True | [
"assert divisible_by_digits(1,22)==[1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 12, 15, 22]",
"assert divisible_by_digits(1,15)==[1, 2, 3, 4, 5, 6, 7, 8, 9, 11, 12, 15]",
"assert divisible_by_digits(20,25)==[22, 24]"
] | [] | |
779 | Write a function to sort dictionary items by tuple product of keys for the given dictionary with tuple keys. | def sum_Odd(n):
terms = (n + 1)//2
sum1 = terms * terms
return sum1
def sum_in_Range(l,r):
return sum_Odd(r) - sum_Odd(l - 1) | [
"assert No_of_cubes(2,1) == 8",
"assert No_of_cubes(5,2) == 64",
"assert No_of_cubes(1,1) == 1"
] | [] | |
765 | Write a function to create a list taking alternate elements from another given list. | import math
def find_Index(n):
x = math.sqrt(2 * math.pow(10,(n - 1)));
return round(x); | [
"assert replace_spaces('Jumanji The Jungle') == 'Jumanji_The_Jungle'",
"assert replace_spaces('The Avengers') == 'The_Avengers'",
"assert replace_spaces('Fast and Furious') == 'Fast_and_Furious'"
] | [] | |
817 | Write a python function to find the sum of fourth power of first n odd natural numbers. | def count_duplic(lists):
element = []
frequency = []
if not lists:
return element
running_count = 1
for i in range(len(lists)-1):
if lists[i] == lists[i+1]:
running_count += 1
else:
frequency.append(running_count)
element.append(... | [
"assert check_expression(\"{()}[{}]\") == True",
"assert check_expression(\"{()}[{]\") == False",
"assert check_expression(\"{()}[{}][]({})\") == True"
] | [] | |
867 | Write a function to pack consecutive duplicates of a given list elements into sublists. | def sum_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 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'"
] | [] | |
801 | Write a function to check if the string is a valid email address or not using regex. | import re
def extract_quotation(text1):
return (re.findall(r'"(.*?)"', text1)) | [
"assert decreasing_trend([-4,-3,-2,-1]) == True",
"assert decreasing_trend([1,2,3]) == True",
"assert decreasing_trend([3,2,1]) == False"
] | [] | |
611 | Write a python function to access multiple elements of specified index from a given list. | def bell_Number(n):
bell = [[0 for i in range(n+1)] for j in range(n+1)]
bell[0][0] = 1
for i in range(1, n+1):
bell[i][0] = bell[i-1][i-1]
for j in range(1, i+1):
bell[i][j] = bell[i-1][j-1] + bell[i][j-1]
return bell[n][0] | [
"assert tuple_to_set(('x', 'y', 'z') ) == {'y', 'x', 'z'}",
"assert tuple_to_set(('a', 'b', 'c') ) == {'c', 'a', 'b'}",
"assert tuple_to_set(('z', 'd', 'e') ) == {'d', 'e', 'z'}"
] | [] | |
679 | Write a function to add the given tuple to the given list. | def lcopy(xs):
return xs[:]
| [
"assert max_of_three(10,20,30)==30",
"assert max_of_three(55,47,39)==55",
"assert max_of_three(10,49,30)==49"
] | [] | |
783 | Write a function to find maximum run of uppercase characters in the given string. | def chunk_tuples(test_tup, N):
res = [test_tup[i : i + N] for i in range(0, len(test_tup), N)]
return (res) | [
"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]]"
] | [] | |
931 | Write a function to find the product of it’s kth index in the given tuples. | def parallelogram_perimeter(b,h):
perimeter=2*(b*h)
return perimeter | [
"assert count_Set_Bits(16) == 33",
"assert count_Set_Bits(2) == 2",
"assert count_Set_Bits(14) == 28"
] | [] | |
973 | Write a function to rotate a given list by specified number of items to the right direction. | import itertools
def remove_duplicate(list1):
list.sort(list1)
remove_duplicate = list(list1 for list1,_ in itertools.groupby(list1))
return remove_duplicate | [
"assert lateralsurface_cone(5,12)==204.20352248333654",
"assert lateralsurface_cone(10,15)==566.3586699569488",
"assert lateralsurface_cone(19,17)==1521.8090132193388"
] | [] | |
625 | Write a python function to count number of cubes of size k in a cube of size n. | def multiply_list(items):
tot = 1
for x in items:
tot *= x
return tot | [
"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"
] | [] | |
807 | Write a function to compute the value of ncr mod p. | 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 move_last([1,2,3,4]) == [2,3,4,1]",
"assert move_last([2,3,4,1,5,0]) == [3,4,1,5,0,2]",
"assert move_last([5,4,3,2,1]) == [4,3,2,1,5]"
] | [] | |
606 | Write a function to replace all spaces in the given string with character * list item * list item * list item * list item '%20'. | def min_difference(test_list):
temp = [abs(b - a) for a, b in test_list]
res = min(temp)
return (res) | [
"assert find_closet([1, 4, 10],[2, 15, 20],[10, 12],3,3,2) == (10, 15, 10)",
"assert find_closet([20, 24, 100],[2, 19, 22, 79, 800],[10, 12, 23, 24, 119],3,5,5) == (24, 22, 23)",
"assert find_closet([2, 5, 11],[3, 16, 21],[11, 13],3,3,2) == (11, 16, 11)"
] | [] | |
891 | Write a function to count occurrence of a character in a string. | import re
def occurance_substring(text,pattern):
for match in re.finditer(pattern, text):
s = match.start()
e = match.end()
return (text[s:e], s, e) | [
"assert triangle_area(0) == 0",
"assert triangle_area(-1) == -1",
"assert triangle_area(2) == 4"
] | [] | |
759 | Write a python function to count lower case letters in a given string. | 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 min_jumps([1, 3, 6, 1, 0, 9], 6) == 3",
"assert min_jumps([1, 3, 5, 8, 9, 2, 6, 7, 6, 8, 9], 11) == 3",
"assert min_jumps([1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], 11) == 10"
] | [] | |
898 | Write a python function to find the index of an extra element present in one sorted array. | 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 get_Number(8,5) == 2",
"assert get_Number(7,2) == 3",
"assert get_Number(5,2) == 3"
] | [] | |
682 | Write a python function to count the number of pairs whose sum is equal to ‘sum’. | import re
text = 'Python Exercises'
def replace_spaces(text):
text =text.replace (" ", "_")
return (text)
text =text.replace ("_", " ")
return (text) | [
"assert remove_duplicate([[10, 20], [40], [30, 56, 25], [10, 20], [33], [40]])==[[10, 20], [30, 56, 25], [33], [40]] ",
"assert remove_duplicate([\"a\", \"b\", \"a\", \"c\", \"c\"] )==[\"a\", \"b\", \"c\"]",
"assert remove_duplicate([1, 3, 5, 6, 3, 5, 6, 1] )==[1, 3, 5, 6]"
] | [] | |
852 | Write a python function to multiply all items in the list. | import re
regex = '^[aeiouAEIOU][A-Za-z0-9_]*'
def check_str(string):
if(re.search(regex, string)):
return ("Valid")
else:
return ("Invalid") | [
"assert max_of_nth([(5, 6, 7), (1, 3, 5), (8, 9, 19)], 2) == 19",
"assert max_of_nth([(6, 7, 8), (2, 4, 6), (9, 10, 20)], 1) == 10",
"assert max_of_nth([(7, 8, 9), (3, 5, 7), (10, 11, 21)], 1) == 11"
] | [] | |
927 | Write a python function to find number of solutions in quadratic equation. | def Repeat(x):
_size = len(x)
repeated = []
for i in range(_size):
k = i + 1
for j in range(k, _size):
if x[i] == x[j] and x[i] not in repeated:
repeated.append(x[i])
return repeated | [
"assert sorted_dict({'n1': [2, 3, 1], 'n2': [5, 1, 2], 'n3': [3, 2, 4]})=={'n1': [1, 2, 3], 'n2': [1, 2, 5], 'n3': [2, 3, 4]}",
"assert sorted_dict({'n1': [25,37,41], 'n2': [41,54,63], 'n3': [29,38,93]})=={'n1': [25, 37, 41], 'n2': [41, 54, 63], 'n3': [29, 38, 93]}",
"assert sorted_dict({'n1': [58,44,56], 'n2':... | [] | |
734 | Write a function to calculate the geometric sum of n-1. | 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 count_Fac(24) == 3",
"assert count_Fac(12) == 2",
"assert count_Fac(4) == 1"
] | [] | |
878 | Write a function to extract values between quotation marks of the given string by using regex. | import math
def sum_series(number):
total = 0
total = math.pow((number * (number + 1)) /2, 2)
return total | [
"assert check_str(\"annie\") == 'Valid'",
"assert check_str(\"dawood\") == 'Invalid'",
"assert check_str(\"Else\") == 'Valid'"
] | [] | |
802 | Write a python function to count the total set bits from 1 to n. | 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 tuple_to_dict((1, 5, 7, 10, 13, 5)) == {1: 5, 7: 10, 13: 5}",
"assert tuple_to_dict((1, 2, 3, 4, 5, 6)) == {1: 2, 3: 4, 5: 6}",
"assert tuple_to_dict((7, 8, 9, 10, 11, 12)) == {7: 8, 9: 10, 11: 12}"
] | [] | |
687 | Write a python function to find the minimum sum of absolute differences of two arrays. | 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 fibonacci(7) == 13",
"assert fibonacci(8) == 21",
"assert fibonacci(9) == 34"
] | [] | |
967 | Write a function to extract all the adjacent coordinates of the given coordinate tuple. | import re
regex = '^[a-z0-9]+[\._]?[a-z0-9]+[@]\w+[.]\w{2,3}$'
def check_email(email):
if(re.search(regex,email)):
return ("Valid Email")
else:
return ("Invalid Email") | [
"assert Convert('python program') == ['python','program']",
"assert Convert('Data Analysis') ==['Data','Analysis']",
"assert Convert('Hadoop Training') == ['Hadoop','Training']"
] | [] | |
669 | Write a function to check whether the given ip address is valid or not using regex. | def set_middle_bits(n):
n |= n >> 1;
n |= n >> 2;
n |= n >> 4;
n |= n >> 8;
n |= n >> 16;
return (n >> 1) ^ 1
def toggle_middle_bits(n):
if (n == 1):
return 1
return n ^ set_middle_bits(n) | [
"assert listify_list(['Red', 'Blue', 'Black', 'White', 'Pink'])==[['R', 'e', 'd'], ['B', 'l', 'u', 'e'], ['B', 'l', 'a', 'c', 'k'], ['W', 'h', 'i', 't', 'e'], ['P', 'i', 'n', 'k']]",
"assert listify_list(['python'])==[['p', 'y', 't', 'h', 'o', 'n']]",
"assert listify_list([' red ', 'green',' black', 'blue ',' o... | [] | |
772 | Write a function to remove multiple spaces in a string. | def Check_Solution(a,b,c):
if (a == c):
return ("Yes");
else:
return ("No"); | [
"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)"
] | [] | |
890 | Write a python function to get the last element of each sublist. | def Diff(li1,li2):
return (list(list(set(li1)-set(li2)) + list(set(li2)-set(li1))))
| [
"assert get_median([1, 12, 15, 26, 38], [2, 13, 17, 30, 45], 5) == 16.0",
"assert get_median([2, 4, 8, 9], [7, 13, 19, 28], 4) == 8.5",
"assert get_median([3, 6, 14, 23, 36, 42], [2, 18, 27, 39, 49, 55], 6) == 25.0"
] | [] | |
825 | Write a function to count the same pair in two given lists using map function. | def extract_unique(test_dict):
res = list(sorted({ele for val in test_dict.values() for ele in val}))
return res | [
"assert second_frequent(['aaa','bbb','ccc','bbb','aaa','aaa']) == 'bbb'",
"assert second_frequent(['abc','bcd','abc','bcd','bcd','bcd']) == 'abc'",
"assert second_frequent(['cdma','gsm','hspa','gsm','cdma','cdma']) == 'gsm'"
] | [] | |
650 | Write a python function to check whether the given strings are rotations of each other or not. | from collections import OrderedDict
def remove_duplicate(string):
result = ' '.join(OrderedDict((w,w) for w in string.split()).keys())
return result | [
"assert div_of_nums([19, 65, 57, 39, 152, 639, 121, 44, 90, 190],2,4)==[ 152,44]",
"assert div_of_nums([1, 2, 3, 5, 7, 8, 10],2,5)==[10]",
"assert div_of_nums([10,15,14,13,18,12,20],10,5)==[10,20]"
] | [] | |
845 | Write a function to search a literals string in a string and also find the location within the original string where the pattern occurs by using regex. | def fifth_Power_Sum(n) :
sm = 0
for i in range(1,n+1) :
sm = sm + (i*i*i*i*i)
return sm | [
"assert sum_of_square(4) == 70",
"assert sum_of_square(5) == 252",
"assert sum_of_square(2) == 6"
] | [] | |
739 | Write a function that matches a string that has an a followed by zero or one 'b'. | def even_position(nums):
return all(nums[i]%2==i%2 for i in range(len(nums))) | [
"assert remove_tuple([(None, 2), (None, None), (3, 4), (12, 3), (None, )] ) == '[(None, 2), (3, 4), (12, 3)]'",
"assert remove_tuple([(None, None), (None, None), (3, 6), (17, 3), (None,1 )] ) == '[(3, 6), (17, 3), (None, 1)]'",
"assert remove_tuple([(1, 2), (2, None), (3, None), (24, 3), (None, None )] ) == '[(... | [] | |
671 | Write a python function to convert a string to a list. | 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 is_Two_Alter(\"abab\") == True",
"assert is_Two_Alter(\"aaaa\") == False",
"assert is_Two_Alter(\"xyz\") == False"
] | [] | |
887 | Write a function to remove duplicates from a list of lists. | def sort_tuple(tup):
n = len(tup)
for i in range(n):
for j in range(n-i-1):
if tup[j][0] > tup[j + 1][0]:
tup[j], tup[j + 1] = tup[j + 1], tup[j]
return tup | [
"assert max_of_two(10,20)==20",
"assert max_of_two(19,15)==19",
"assert max_of_two(-10,-20)==-10"
] | [] | |
957 | Write a function to find the length of the longest sub-sequence such that elements in the subsequences are consecutive integers. | def odd_position(nums):
return all(nums[i]%2==i%2 for i in range(len(nums))) | [
"assert subset([1, 2, 3, 4],4) == 1",
"assert subset([5, 6, 9, 3, 4, 3, 4],7) == 2",
"assert subset([1, 2, 3 ],3) == 1"
] | [] | |
714 | Write a function to find maximum of two 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 str_to_tuple(\"1, -5, 4, 6, 7\") == (1, -5, 4, 6, 7)",
"assert str_to_tuple(\"1, 2, 3, 4, 5\") == (1, 2, 3, 4, 5)",
"assert str_to_tuple(\"4, 6, 9, 11, 13, 14\") == (4, 6, 9, 11, 13, 14)"
] | [] | |
632 | Write a function to find numbers divisible by m or n from a list of numbers using lambda function. | 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 substract_elements(((1, 3), (4, 5), (2, 9), (1, 10)), ((6, 7), (3, 9), (1, 1), (7, 3))) == ((-5, -4), (1, -4), (1, 8), (-6, 7))",
"assert substract_elements(((13, 4), (14, 6), (13, 10), (12, 11)), ((19, 8), (14, 10), (12, 2), (18, 4))) == ((-6, -4), (0, -4), (1, 8), (-6, 7))",
"assert substract_elements... | [] | |
873 | Write a function to find out the second most repeated (or frequent) string in the given sequence. | import re
def match_num(string):
text = re.compile(r"^5")
if text.match(string):
return True
else:
return False | [
"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"
] | [] | |
813 | Write a function to find minimum k records from tuple list. | def find_fixed_point(arr, n):
for i in range(n):
if arr[i] is i:
return i
return -1 | [
"assert Sum(60) == 10",
"assert Sum(39) == 16",
"assert Sum(40) == 7"
] | [] | |
735 | Write a function to count those characters which have vowels as their neighbors in the given string. | def mul_list(nums1,nums2):
result = map(lambda x, y: x * y, nums1, nums2)
return list(result) | [
"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"
] | [] | |
628 | Write a function to find the maximum of similar indices in two lists of tuples. | def find_triplet_array(A, arr_size, sum):
for i in range( 0, arr_size-2):
for j in range(i + 1, arr_size-1):
for k in range(j + 1, arr_size):
if A[i] + A[j] + A[k] == sum:
return A[i],A[j],A[k]
return True
return False | [
"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"
] | [] | |
637 | Write a python function to find the type of triangle from the given sides. | def max_sum_list(lists):
return max(lists, key=sum) | [
"assert get_item((\"w\", 3, \"r\", \"e\", \"s\", \"o\", \"u\", \"r\", \"c\", \"e\"),3)==('e')",
"assert get_item((\"w\", 3, \"r\", \"e\", \"s\", \"o\", \"u\", \"r\", \"c\", \"e\"),-4)==('u')",
"assert get_item((\"w\", 3, \"r\", \"e\", \"s\", \"o\", \"u\", \"r\", \"c\", \"e\"),-3)==('r')"
] | [] | |
883 | Write a python function to check whether a sequence of numbers has an increasing trend or not. | def max_occurrences(list1):
max_val = 0
result = list1[0]
for i in list1:
occu = list1.count(i)
if occu > max_val:
max_val = occu
result = i
return result | [
"assert maximum_value([('key1', [3, 4, 5]), ('key2', [1, 4, 2]), ('key3', [9, 3])]) == [('key1', 5), ('key2', 4), ('key3', 9)]",
"assert maximum_value([('key1', [4, 5, 6]), ('key2', [2, 5, 3]), ('key3', [10, 4])]) == [('key1', 6), ('key2', 5), ('key3', 10)]",
"assert maximum_value([('key1', [5, 6, 7]), ('key2',... | [] | |
908 | Write a function to find the nth delannoy number. | def find_Points(l1,r1,l2,r2):
x = min(l1,l2) if (l1 != l2) else -1
y = max(r1,r2) if (r1 != r2) else -1
return (x,y) | [
"assert first_Digit(5) == 1",
"assert first_Digit(10) == 3",
"assert first_Digit(7) == 5"
] | [] | |
647 | Write a function to find the largest subset where each pair is divisible. | 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 dealnnoy_num(3, 4) == 129",
"assert dealnnoy_num(3, 3) == 63",
"assert dealnnoy_num(4, 5) == 681"
] | [] | |
767 | Write a python function to find sum of inverse of divisors. | def sorted_models(models):
sorted_models = sorted(models, key = lambda x: x['color'])
return sorted_models | [
"assert check_identical([(10, 4), (2, 5)], [(10, 4), (2, 5)]) == True",
"assert check_identical([(1, 2), (3, 7)], [(12, 14), (12, 45)]) == False",
"assert check_identical([(2, 14), (12, 25)], [(2, 14), (12, 25)]) == True"
] | [] | |
641 | ## 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 | import math
def first_Digit(n) :
fact = 1
for i in range(2,n + 1) :
fact = fact * i
while (fact % 10 == 0) :
fact = int(fact / 10)
while (fact >= 10) :
fact = int(fact / 10)
return math.floor(fact) | [
"assert cube_Sum(2) == 28",
"assert cube_Sum(3) == 153",
"assert cube_Sum(4) == 496"
] | [] | |
747 | Write a python function to check whether the count of divisors is even or odd. | def maximum_product(nums):
import heapq
a, b = heapq.nlargest(3, nums), heapq.nsmallest(2, nums)
return max(a[0] * a[1] * a[2], a[0] * b[0] * b[1]) | [
"assert access_key({'physics': 80, 'math': 90, 'chemistry': 86},0)== 'physics'",
"assert access_key({'python':10, 'java': 20, 'C++':30},2)== 'C++'",
"assert access_key({'program':15,'computer':45},1)== 'computer'"
] | [] | |
762 | Write a function to add a dictionary to the tuple. | from itertools import zip_longest, chain, tee
def exchange_elements(lst):
lst1, lst2 = tee(iter(lst), 2)
return list(chain.from_iterable(zip_longest(lst[1::2], lst[::2]))) | [
"assert swap_List([1,2,3]) == [3,2,1]",
"assert swap_List([1,2,3,4,4]) == [4,2,3,4,1]",
"assert swap_List([4,5,6]) == [6,5,4]"
] | [] | |
948 | Write a function to check if a triangle of positive area is possible with the given angles. | def check_monthnum_number(monthnum1):
if monthnum1 == 2:
return True
else:
return False | [
"assert max_sub_array_sum([-2, -3, 4, -1, -2, 1, 5, -3],8) == 5",
"assert max_sub_array_sum([1, -2, 1, 1, -2, 1],6) == 2",
"assert max_sub_array_sum([-1, -2, 3, 4, 5],5) == 3"
] | [] | |
855 | Write a function to find palindromes in a given list of strings using lambda function. | 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 front_and_rear((10, 4, 5, 6, 7)) == (10, 7)",
"assert front_and_rear((1, 2, 3, 4, 5)) == (1, 5)",
"assert front_and_rear((6, 7, 8, 9, 10)) == (6, 10)"
] | [] | |
697 | Write a function to clear the values of the given tuples. | import re
def text_uppercase_lowercase(text):
patterns = '[A-Z]+[a-z]+$'
if re.search(patterns, text):
return 'Found a match!'
else:
return ('Not matched!') | [
"assert remove_spaces(\"a b c\") == \"abc\"",
"assert remove_spaces(\"1 2 3\") == \"123\"",
"assert remove_spaces(\" b c\") == \"bc\""
] | [] | |
828 | Write a python function to find minimum possible value for the given periodic function. | def count_range_in_list(li, min, max):
ctr = 0
for x in li:
if min <= x <= max:
ctr += 1
return ctr | [
"assert (max_height(root)) == 3",
"assert (max_height(root1)) == 5 ",
"assert (max_height(root2)) == 4"
] | [] | |
776 | Write a python function to check whether every even index contains even numbers of a given list. | import heapq as hq
def heap_sort(iterable):
h = []
for value in iterable:
hq.heappush(h, value)
return [hq.heappop(h) for i in range(len(h))] | [
"assert Sum_of_Inverse_Divisors(6,12) == 2",
"assert Sum_of_Inverse_Divisors(9,13) == 1.44",
"assert Sum_of_Inverse_Divisors(1,4) == 4"
] | [] | |
835 | Write a function to find the lateral surface area of a cone. | def access_key(ditionary,key):
return list(ditionary)[key] | [
"assert len_log([\"win\",\"lose\",\"great\"]) == 3",
"assert len_log([\"a\",\"ab\",\"abc\"]) == 1",
"assert len_log([\"12\",\"12\",\"1234\"]) == 2"
] | [] | |
725 | Write a function to check for the number of jumps required of given length to reach a point of form (d, 0) from origin in a 2d plane. | 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 sort_list_last([(2, 5), (1, 2), (4, 4), (2, 3), (2, 1)])==[(2, 1), (1, 2), (2, 3), (4, 4), (2, 5)] ",
"assert sort_list_last([(9,8), (4, 7), (3,5), (7,9), (1,2)])==[(1,2), (3,5), (4,7), (9,8), (7,9)] ",
"assert sort_list_last([(20,50), (10,20), (40,40)])==[(10,20),(40,40),(20,50)] "
] | [] | |
623 | Write a function to check if the given integer is a prime number. | def sum_list(lst1,lst2):
res_list = [lst1[i] + lst2[i] for i in range(len(lst1))]
return res_list | [
"assert find_First_Missing([0,1,2,3],0,3) == 4",
"assert find_First_Missing([0,1,2,6,9],0,4) == 3",
"assert find_First_Missing([2,3,5,8,9],0,4) == 0"
] | [] | |
749 | Write a function to extract year, month and date from a url by using regex. | import re
def check_substring(string, sample) :
if (sample in string):
y = "\A" + sample
x = re.search(y, string)
if x :
return ("string starts with the given substring")
else :
return ("string doesnt start with the given substring")
else :
retur... | [
"assert maximum_product( [12, 74, 9, 50, 61, 41])==225700",
"assert maximum_product([25, 35, 22, 85, 14, 65, 75, 25, 58])==414375",
"assert maximum_product([18, 14, 10, 9, 8, 7, 9, 3, 2, 4, 1])==2520"
] | [] | |
868 | Write a python function to count the total unset bits from 1 to n. | def reverse_list_lists(lists):
for l in lists:
l.sort(reverse = True)
return lists | [
"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\""
] | [] | |
919 | Write a function to find ln, m lobb number. | def max_of_two( x, y ):
if x > y:
return x
return y | [
"assert remove_negs([1,-2,3,-4]) == [1,3]",
"assert remove_negs([1,2,3,-4]) == [1,2,3]",
"assert remove_negs([4,5,-6,7,-8]) == [4,5,7]"
] | [] | |
929 | Write a function to find the n-th power of individual elements in a list using lambda function. | def len_log(list1):
min=len(list1[0])
for i in list1:
if len(i)<min:
min=len(i)
return min | [
"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"
] | [] | |
646 | Write a function to calculate wind chill index. | 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 is_Perfect_Square(10) == False",
"assert is_Perfect_Square(36) == True",
"assert is_Perfect_Square(14) == False"
] | [] | |
953 | Write a function to find the equilibrium index of the given array. | def check_element(test_tup, check_list):
res = False
for ele in check_list:
if ele in test_tup:
res = True
break
return (res) | [
"assert all_Characters_Same(\"python\") == False",
"assert all_Characters_Same(\"aaa\") == True",
"assert all_Characters_Same(\"data\") == False"
] | [] | |
610 | Write a python function to accept the strings which contains all vowels. | def nCr_mod_p(n, r, p):
if (r > n- r):
r = n - r
C = [0 for i in range(r + 1)]
C[0] = 1
for i in range(1, n + 1):
for j in range(min(i, r), 0, -1):
C[j] = (C[j] + C[j-1]) % p
return C[r] | [
"assert sd_calc([4, 2, 5, 8, 6])== 2.23606797749979",
"assert sd_calc([1,2,3,4,5,6,7])==2.160246899469287",
"assert sd_calc([5,9,10,15,6,4])==4.070217029430577"
] | [] |
End of preview. Expand in Data Studio
edition_2672_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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