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 |
|---|---|---|---|---|---|
884 | Write a function to calculate the perimeter of a regular polygon. | 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("[$#@]",p):
break
elif r... | [
"assert len_complex(3,4)==5.0",
"assert len_complex(9,10)==13.45362404707371",
"assert len_complex(7,9)==11.40175425099138"
] | [] | |
889 | Write a python function to find the minimum number of swaps required to convert one binary string to another. | def is_decimal(num):
import re
dnumre = re.compile(r"""^[0-9]+(\.[0-9]{1,2})?$""")
result = dnumre.search(num)
return bool(result) | [
"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]]"
] | [] | |
716 | Write a python function to remove spaces from 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 number_ctr('program2bedone') == 1",
"assert number_ctr('3wonders') ==1",
"assert number_ctr('123') == 3"
] | [] | |
831 | Write a function to count the most common character in a given string. | 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 return_sum({'a': 100, 'b':200, 'c':300}) == 600",
"assert return_sum({'a': 25, 'b':18, 'c':45}) == 88",
"assert return_sum({'a': 36, 'b':39, 'c':49}) == 124"
] | [] | |
932 | Write a python function to find the sum of fourth power of first n odd natural numbers. | def div_of_nums(nums,m,n):
result = list(filter(lambda x: (x % m == 0 and x % n == 0), nums))
return result | [
"assert remove_extra_char('**//Google Android// - 12. ') == 'GoogleAndroid12'",
"assert remove_extra_char('****//Google Flutter//*** - 36. ') == 'GoogleFlutter36'",
"assert remove_extra_char('**//Google Firebase// - 478. ') == 'GoogleFirebase478'"
] | [] | |
945 | Write a function to calculate the sum of series 1³+2³+3³+….+n³. | def find_Extra(arr1,arr2,n) :
for i in range(0, n) :
if (arr1[i] != arr2[i]) :
return i
return n | [
"assert last_Two_Digits(7) == 40",
"assert last_Two_Digits(5) == 20",
"assert last_Two_Digits(2) == 2"
] | [] | |
818 | Write a function to find numbers divisible by m or n from a list of numbers using lambda function. | import datetime
def check_date(m, d, y):
try:
m, d, y = map(int, (m, d, y))
datetime.date(y, m, d)
return True
except ValueError:
return False | [
"assert check_K((10, 4, 5, 6, 8), 6) == True",
"assert check_K((1, 2, 3, 4, 5, 6), 7) == False",
"assert check_K((7, 8, 9, 44, 11, 12), 11) == True"
] | [] | |
957 | Write a function to sum the length of the names of a given list of names after removing the names that start with a lowercase letter. | def rombus_area(p,q):
area=(p*q)/2
return area | [
"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'... | [] | |
929 | Write a python function to find the index of an extra element present in one sorted array. | def swap_List(newList):
size = len(newList)
temp = newList[0]
newList[0] = newList[size - 1]
newList[size - 1] = temp
return newList | [
"assert text_uppercase_lowercase(\"AaBbGg\")==('Found a match!')",
"assert text_uppercase_lowercase(\"aA\")==('Not matched!')",
"assert text_uppercase_lowercase(\"PYTHON\")==('Not matched!')"
] | [] | |
713 | Write a function to find minimum k records from tuple list. | 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 odd_position([2,1,4,3,6,7,6,3]) == True",
"assert odd_position([4,1,2]) == True",
"assert odd_position([1,2,3]) == False"
] | [] | |
774 | Write a function to caluclate arc length of an angle. | import re
def text_starta_endb(text):
patterns = 'a.*?b$'
if re.search(patterns, text):
return 'Found a match!'
else:
return('Not matched!') | [
"assert product_Equal(2841) == True",
"assert product_Equal(1234) == False",
"assert product_Equal(1212) == False"
] | [] | |
898 | Write a function to check if the given integer is a prime number. | def concatenate_nested(test_tup1, test_tup2):
res = test_tup1 + test_tup2
return (res) | [
"assert string_length('python')==6",
"assert string_length('program')==7",
"assert string_length('language')==8"
] | [] | |
972 | Write a python function to check whether the given number is odd or not using bitwise operator. | def count_Rotation(arr,n):
for i in range (1,n):
if (arr[i] < arr[i - 1]):
return i
return 0 | [
"assert rearrange_numbs([-1, 2, -3, 5, 7, 8, 9, -10])==[2, 5, 7, 8, 9, -10, -3, -1]",
"assert rearrange_numbs([10,15,14,13,-18,12,-20])==[10, 12, 13, 14, 15, -20, -18]",
"assert rearrange_numbs([-20,20,-10,10,-30,30])==[10, 20, 30, -30, -20, -10]"
] | [] | |
668 | Write a function to find all anagrams of a string in a given list of strings using lambda function. | def min_of_two( x, y ):
if x < y:
return x
return y | [
"assert first_odd([1,3,5]) == 1",
"assert first_odd([2,4,1,3]) == 1",
"assert first_odd ([8,9,1]) == 9"
] | [] | |
736 | Write a python function to set the right most unset bit. | def jacobsthal_num(n):
dp = [0] * (n + 1)
dp[0] = 0
dp[1] = 1
for i in range(2, n+1):
dp[i] = dp[i - 1] + 2 * dp[i - 2]
return dp[n] | [
"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)"
] | [] | |
603 | Write a python function to check for even parity of a given number. | def subset(ar, n):
res = 0
ar.sort()
for i in range(0, n) :
count = 1
for i in range(n - 1):
if ar[i] == ar[i + 1]:
count+=1
else:
break
res = max(res, count)
return res | [
"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"
] | [] | |
880 | Write a function to iterate over all pairs of consecutive items in a given list. | def div_list(nums1,nums2):
result = map(lambda x, y: x / y, nums1, nums2)
return list(result) | [
"assert get_odd_occurence([2, 3, 5, 4, 5, 2, 4, 3, 5, 2, 4, 4, 2], 13) == 5",
"assert get_odd_occurence([1, 2, 3, 2, 3, 1, 3], 7) == 3",
"assert get_odd_occurence([5, 7, 2, 7, 5, 2, 5], 7) == 5"
] | [] | |
902 | Write a python function to find nth bell number. | def find_ind(key, i, n,
k, arr):
ind = -1
start = i + 1
end = n - 1;
while (start < end):
mid = int(start +
(end - start) / 2)
if (arr[mid] - key <= k):
ind = mid
start = mid + 1
else:
end = mid
return ind
def removals(arr, n, k):
ans = n - 1
arr.sort()
for i in range(0, ... | [
"assert cube_Sum(2) == 28",
"assert cube_Sum(3) == 153",
"assert cube_Sum(4) == 496"
] | [] | |
944 | Write a function to divide two lists using map and lambda function. | def is_nonagonal(n):
return int(n * (7 * n - 5) / 2) | [
"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"
] | [] | |
876 | Write a function to calculate the discriminant value. | 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 ntimes_list([1, 2, 3, 4, 5, 6, 7],3)==[3, 6, 9, 12, 15, 18, 21]",
"assert ntimes_list([1, 2, 3, 4, 5, 6, 7],4)==[4, 8, 12, 16, 20, 24, 28]",
"assert ntimes_list([1, 2, 3, 4, 5, 6, 7],10)==[10, 20, 30, 40, 50, 60, 70]"
] | [] | |
778 | Write a function to convert the given string of integers into a tuple. | def sorted_models(models):
sorted_models = sorted(models, key = lambda x: x['color'])
return sorted_models | [
"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"
] | [] | |
856 | Write a python function to find the average of even numbers till a given even number. | def div_of_nums(nums,m,n):
result = list(filter(lambda x: (x % m == 0 or x % n == 0), nums))
return result | [
"assert smallest_multiple(13)==360360",
"assert smallest_multiple(2)==2",
"assert smallest_multiple(1)==1"
] | [] | |
677 | Write a function to find the list in a list of lists whose sum of elements is the highest. | import itertools
def remove_duplicate(list1):
list.sort(list1)
remove_duplicate = list(list1 for list1,_ in itertools.groupby(list1))
return remove_duplicate | [
"assert replace_specialchar('Python language, Programming language.')==('Python:language::Programming:language:')",
"assert replace_specialchar('a b c,d e f')==('a:b:c:d:e:f')",
"assert replace_specialchar('ram reshma,ram rahim')==('ram:reshma:ram:rahim')"
] | [] | |
636 | Write a function to find the product of first even and odd number of a given list. | 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 smallest_Divisor(10) == 2",
"assert smallest_Divisor(25) == 5",
"assert smallest_Divisor(31) == 31"
] | [] | |
853 | Write a function to split the given string at uppercase letters by using regex. | def first_repeated_char(str1):
for index,c in enumerate(str1):
if str1[:index+1].count(c) > 1:
return c
return "None" | [
"assert is_subset([11, 1, 13, 21, 3, 7], 6, [11, 3, 7, 1], 4) == True",
"assert is_subset([1, 2, 3, 4, 5, 6], 6, [1, 2, 4], 3) == True",
"assert is_subset([10, 5, 2, 23, 19], 5, [19, 5, 3], 3) == False"
] | [] | |
662 | Write a python function to find the sum of fifth power of n natural numbers. | def last(arr,x,n):
low = 0
high = n - 1
res = -1
while (low <= high):
mid = (low + high) // 2
if arr[mid] > x:
high = mid - 1
elif arr[mid] < x:
low = mid + 1
else:
res = mid
low = mid + 1
return res | [
"assert sort_numeric_strings( ['4','12','45','7','0','100','200','-12','-500'])==[-500, -12, 0, 4, 7, 12, 45, 100, 200]",
"assert sort_numeric_strings(['2','3','8','4','7','9','8','2','6','5','1','6','1','2','3','4','6','9','1','2'])==[1, 1, 1, 2, 2, 2, 2, 3, 3, 4, 4, 5, 6, 6, 6, 7, 8, 8, 9, 9]",
"assert sort_n... | [] | |
616 | Write a function to find three closest elements from three sorted arrays. | 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 Extract([[1, 2, 3], [4, 5], [6, 7, 8, 9]]) == [3, 5, 9]",
"assert Extract([['x', 'y', 'z'], ['m'], ['a', 'b'], ['u', 'v']]) == ['z', 'm', 'b', 'v']",
"assert Extract([[1, 2, 3], [4, 5]]) == [3, 5]"
] | [] | |
764 | Write a function to check if the string is a valid email address or not using regex. | def remove_spaces(str1):
str1 = str1.replace(' ','')
return str1 | [
"assert most_common_elem('lkseropewdssafsdfafkpwe',3)==[('s', 4), ('e', 3), ('f', 3)] ",
"assert most_common_elem('lkseropewdssafsdfafkpwe',2)==[('s', 4), ('e', 3)]",
"assert most_common_elem('lkseropewdssafsdfafkpwe',7)==[('s', 4), ('e', 3), ('f', 3), ('k', 2), ('p', 2), ('w', 2), ('d', 2)]"
] | [] | |
688 | Write a function to calculate the sum of the positive numbers of a given list of numbers using lambda function. | def remove_duplic_list(l):
temp = []
for x in l:
if x not in temp:
temp.append(x)
return temp | [
"assert triangle_area(0) == 0",
"assert triangle_area(-1) == -1",
"assert triangle_area(2) == 4"
] | [] | |
759 | Write a function to sort a list in a dictionary. | def move_last(num_list):
a = [num_list[0] for i in range(num_list.count(num_list[0]))]
x = [ i for i in num_list if i != num_list[0]]
x.extend(a)
return (x) | [
"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\") ] "
] | [] | |
697 | Write a function to pack consecutive duplicates of a given list elements into sublists. | def add_list(nums1,nums2):
result = map(lambda x, y: x + y, nums1, nums2)
return list(result) | [
"assert right_insertion([1,2,4,5],6)==4",
"assert right_insertion([1,2,4,5],3)==2",
"assert right_insertion([1,2,4,5],7)==4"
] | [] | |
735 | Write a function to check if the triangle is valid or not. | def rearrange_numbs(array_nums):
result = sorted(array_nums, key = lambda i: 0 if i == 0 else -1 / i)
return result | [
"assert min_Swaps(\"0011\",\"1111\") == 1",
"assert min_Swaps(\"00011\",\"01001\") == 2",
"assert min_Swaps(\"111\",\"111\") == 0"
] | [] | |
607 | Write a function to find the greatest common divisor (gcd) of two integers by using recursion. | def fibonacci(n):
if n == 1 or n == 2:
return 1
else:
return (fibonacci(n - 1) + (fibonacci(n - 2))) | [
"assert first_Digit(5) == 1",
"assert first_Digit(10) == 3",
"assert first_Digit(7) == 5"
] | [] | |
805 | Write a function to find the minimum number of elements that should be removed such that amax-amin<=k. | def reverse_Array_Upto_K(input, k):
return (input[k-1::-1] + input[k:]) | [
"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"
] | [] | |
712 | Write a python function to count equal element pairs from the given array. | def sort_sublists(list1):
list1.sort()
list1.sort(key=len)
return list1 | [
"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\")==(\... | [] | |
696 | Write a python function to find the first digit in factorial of a given number. | 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 pack_consecutive_duplicates([0, 0, 1, 2, 3, 4, 4, 5, 6, 6, 6, 7, 8, 9, 4, 4])==[[0, 0], [1], [2], [3], [4, 4], [5], [6, 6, 6], [7], [8], [9], [4, 4]]",
"assert pack_consecutive_duplicates([10, 10, 15, 19, 18, 18, 17, 26, 26, 17, 18, 10])==[[10, 10], [15], [19], [18, 18], [17], [26, 26], [17], [18], [10]]"... | [] | |
874 | Write a function to sum a specific column of a list in a given list of lists. | 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 remove_char(\"123abcjw:, .@! eiw\") == '123abcjweiw'",
"assert remove_char(\"Hello1234:, ! Howare33u\") == 'Hello1234Howare33u'",
"assert remove_char(\"Cool543Triks@:, Make@987Trips\") == 'Cool543TriksMake987Trips' "
] | [] | |
744 | Write a function to find the longest common subsequence for the given three string sequence. | def front_and_rear(test_tup):
res = (test_tup[0], test_tup[-1])
return (res) | [
"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':... | [] | |
859 | Write a function to find length of the string. | from sys import maxsize
def max_sub_array_sum(a,size):
max_so_far = -maxsize - 1
max_ending_here = 0
start = 0
end = 0
s = 0
for i in range(0,size):
max_ending_here += a[i]
if max_so_far < max_ending_here:
max_so_far = max_ending_here
start = s
end = i
if max_ending_here < 0:
... | [
"assert area_tetrahedron(3)==15.588457268119894",
"assert area_tetrahedron(20)==692.8203230275509",
"assert area_tetrahedron(10)==173.20508075688772"
] | [] | |
897 | Write a python function to find the length of the shortest word. | 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 min_k([('Manjeet', 10), ('Akshat', 4), ('Akash', 2), ('Nikhil', 8)], 2) == [('Akash', 2), ('Akshat', 4)]",
"assert min_k([('Sanjeev', 11), ('Angat', 5), ('Akash', 3), ('Nepin', 9)], 3) == [('Akash', 3), ('Angat', 5), ('Nepin', 9)]",
"assert min_k([('tanmay', 14), ('Amer', 11), ('Ayesha', 9), ('SKD', 16)... | [] | |
855 | Write a function to find the sequences of one upper case letter followed by lower case letters. | 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 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... | [] | |
893 | Write a function to iterate over elements repeating each as many times as its count. | import re
def split_list(text):
return (re.findall('[A-Z][^A-Z]*', 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]"
] | [] | |
919 | Write a python function to check whether the length of the word is even or not. | INT_BITS = 32
def left_Rotate(n,d):
return (n << d)|(n >> (INT_BITS - d)) | [
"assert mul_list([1, 2, 3],[4,5,6])==[4,10,18]",
"assert mul_list([1,2],[3,4])==[3,8]",
"assert mul_list([90,120],[50,70])==[4500,8400]"
] | [] | |
790 | Write a function to remove all tuples with all none values 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 profit_amount(1500,1200)==300",
"assert profit_amount(100,200)==None",
"assert profit_amount(2000,5000)==None"
] | [] | |
714 | Write a function to find the maximum of nth column from the given tuple list. | 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 new_tuple([\"WEB\", \"is\"], \"best\") == ('WEB', 'is', 'best')",
"assert new_tuple([\"We\", \"are\"], \"Developers\") == ('We', 'are', 'Developers')",
"assert new_tuple([\"Part\", \"is\"], \"Wrong\") == ('Part', 'is', 'Wrong')"
] | [] | |
765 | Write a function to perfom the modulo of tuple elements in the given two tuples. | 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 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... | [] | |
681 | Write a python function to calculate the sum of the numbers in a list between the indices of a specified range. | 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 move_num('I1love143you55three3000thousand') == 'Iloveyouthreethousand1143553000'",
"assert move_num('Avengers124Assemble') == 'AvengersAssemble124'",
"assert move_num('Its11our12path13to14see15things16do17things') == 'Itsourpathtoseethingsdothings11121314151617'"
] | [] | |
950 | Write a function to find the median of two sorted arrays of same size. | def mul_consecutive_nums(nums):
result = [b*a for a, b in zip(nums[:-1], nums[1:])]
return result | [
"assert sum_even_odd([1,3,5,7,4,1,6,8])==5",
"assert sum_even_odd([1,2,3,4,5,6,7,8,9,10])==3",
"assert sum_even_odd([1,5,7,9,10])==11"
] | [] | |
943 | Write a function to convert a date of yyyy-mm-dd format to dd-mm-yyyy format. | def cube_Sum(n):
sum = 0
for i in range(0,n) :
sum += (2*i+1)*(2*i+1)*(2*i+1)
return sum | [
"assert match_num('5-2345861')==True",
"assert match_num('6-2345861')==False",
"assert match_num('78910')==False"
] | [] | |
921 | Write a function to validate a gregorian date. | def check_Concat(str1,str2):
N = len(str1)
M = len(str2)
if (N % M != 0):
return False
for i in range(N):
if (str1[i] != str2[i % M]):
return False
return True | [
"assert min_Jumps(3,4,11)==3.5",
"assert min_Jumps(3,4,0)==0",
"assert min_Jumps(11,14,11)==1"
] | [] | |
746 | Write a function to convert degrees to radians. | 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 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]"
] | [] | |
913 | Write a function to check whether the given string is ending with only alphanumeric characters or not using regex. | 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 split_list(\"LearnToBuildAnythingWithGoogle\") == ['Learn', 'To', 'Build', 'Anything', 'With', 'Google']",
"assert split_list(\"ApmlifyingTheBlack+DeveloperCommunity\") == ['Apmlifying', 'The', 'Black+', 'Developer', 'Community']",
"assert split_list(\"UpdateInTheGoEcoSystem\") == ['Update', 'In', 'The'... | [] | |
872 | Write a function to get an item of a tuple. | import math
def wind_chill(v,t):
windchill = 13.12 + 0.6215*t - 11.37*math.pow(v, 0.16) + 0.3965*t*math.pow(v, 0.16)
return int(round(windchill, 0)) | [
"assert second_smallest([1, 2, -8, -2, 0, -2])==-2",
"assert second_smallest([1, 1, -0.5, 0, 2, -2, -2])==-0.5",
"assert second_smallest([2,2])==None"
] | [] | |
751 | Write a function to count unique keys for each value present in the tuple. | def No_of_cubes(N,K):
No = 0
No = (N - K + 1)
No = pow(No, 3)
return No | [
"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"
] | [] | |
614 | Write a python function to count the number of equal numbers from three given integers. | def max_of_two( x, y ):
if x > y:
return x
return y | [
"assert unique_Element([1,1,1],3) == 'YES'",
"assert unique_Element([1,2,1,2],4) == 'NO'",
"assert unique_Element([1,2,3,4,5],5) == 'NO'"
] | [] | |
959 | Write a function to count coin change. | 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 min_Swaps(\"1101\",\"1110\") == 1",
"assert min_Swaps(\"1111\",\"0100\") == \"Not Possible\"",
"assert min_Swaps(\"1110000\",\"0001101\") == 3"
] | [] | |
873 | Write a function to clear the values of the given tuples. | def _sum(arr):
sum=0
for i in arr:
sum = sum + i
return(sum) | [
"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... | [] | |
822 | Write a function to check if each element of second tuple is smaller than its corresponding index in first tuple. | def check_min_heap(arr, i):
if 2 * i + 2 > len(arr):
return True
left_child = (arr[i] <= arr[2 * i + 1]) and check_min_heap(arr, 2 * i + 1)
right_child = (2 * i + 2 == len(arr)) or (arr[i] <= arr[2 * i + 2]
and check_min_heap(arr, 2 * i + 2))
return l... | [
"assert lcm(4,6) == 12",
"assert lcm(15,17) == 255",
"assert lcm(2,6) == 6"
] | [] | |
910 | Write a function to convert the given string of float type into tuple. | def move_zero(num_list):
a = [0 for i in range(num_list.count(0))]
x = [ i for i in num_list if i != 0]
x.extend(a)
return (x) | [
"assert sort_String(\"cba\") == \"abc\"",
"assert sort_String(\"data\") == \"aadt\"",
"assert sort_String(\"zxy\") == \"xyz\""
] | [] | |
933 | Write a function to find the item with maximum occurrences in a given list. | import re
def extract_quotation(text1):
return (re.findall(r'"(.*?)"', text1)) | [
"assert check_Concat(\"abcabcabc\",\"abc\") == True",
"assert check_Concat(\"abcab\",\"abc\") == False",
"assert check_Concat(\"aba\",\"ab\") == False"
] | [] | |
797 | Write a function to find the area of a trapezium. | def Sum_of_Inverse_Divisors(N,Sum):
ans = float(Sum)*1.0 /float(N);
return round(ans,2); | [
"assert clear_tuple((1, 5, 3, 6, 8)) == ()",
"assert clear_tuple((2, 1, 4 ,5 ,6)) == ()",
"assert clear_tuple((3, 2, 5, 6, 8)) == ()"
] | [] | |
757 | Write a function to count the pairs of reverse strings in the given string list. | import re
def road_rd(street):
return (re.sub('Road$', 'Rd.', street)) | [
"assert re_arrange_tuples([(4, 3), (1, 9), (2, 10), (3, 2)], [1, 4, 2, 3]) == [(1, 9), (4, 3), (2, 10), (3, 2)]",
"assert re_arrange_tuples([(5, 4), (2, 10), (3, 11), (4, 3)], [3, 4, 2, 3]) == [(3, 11), (4, 3), (2, 10), (3, 11)]",
"assert re_arrange_tuples([(6, 3), (3, 8), (5, 7), (2, 4)], [2, 5, 3, 6]) == [... | [] | |
769 | Write a python function to check whether all the bits are within a given range or not. | def lcopy(xs):
return xs[:]
| [
"assert count_vowels('bestinstareels') == 7",
"assert count_vowels('partofthejourneyistheend') == 12",
"assert count_vowels('amazonprime') == 5"
] | [] | |
917 | Write a python function to reverse an array upto a given position. | def geometric_sum(n):
if n < 0:
return 0
else:
return 1 / (pow(2, n)) + geometric_sum(n - 1) | [
"assert max_of_two(10,20)==20",
"assert max_of_two(19,15)==19",
"assert max_of_two(-10,-20)==-10"
] | [] | |
633 | Write a function to find ln, m lobb number. | 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_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 function to remove all whitespaces from a string. | 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 noprofit_noloss(1500,1200)==False",
"assert noprofit_noloss(100,100)==True",
"assert noprofit_noloss(2000,5000)==False"
] | [] | |
766 | Write a function to increment the numeric values in the given strings by k. | import re
def change_date_format(dt):
return re.sub(r'(\d{4})-(\d{1,2})-(\d{1,2})', '\\3-\\2-\\1', dt)
return change_date_format(dt) | [
"assert lcopy([1, 2, 3]) == [1, 2, 3]",
"assert lcopy([4, 8, 2, 10, 15, 18]) == [4, 8, 2, 10, 15, 18]",
"assert lcopy([4, 5, 6]) == [4, 5, 6]\n"
] | [] | |
663 | Write a function to check if the given array represents min heap or not. | def count_char(string,char):
count = 0
for i in range(len(string)):
if(string[i] == char):
count = count + 1
return count | [
"assert max_char(\"hello world\")==('l')",
"assert max_char(\"hello \")==('l')",
"assert max_char(\"python pr\")==('p')"
] | [] | |
653 | Write a function to separate and print the numbers and their position of a given string. | def Average(lst):
return sum(lst) / len(lst) | [
"assert Check_Vow('corner','AaEeIiOoUu') == 2",
"assert Check_Vow('valid','AaEeIiOoUu') == 2",
"assert Check_Vow('true','AaEeIiOoUu') ==2"
] | [] | |
844 | Write a function to multiply consecutive numbers of a given list. | def binomial_coeff(n, k):
C = [[0 for j in range(k + 1)]
for i in range(n + 1)]
for i in range(0, n + 1):
for j in range(0, min(i, k) + 1):
if (j == 0 or j == i):
C[i][j] = 1
else:
C[i][j] = (C[i - 1][j - 1]
+ C[i - 1][j])
return C[n][k]
def lobb_num(n, m):
return ((... | [
"assert lower_ctr('abc') == 3",
"assert lower_ctr('string') == 6",
"assert lower_ctr('Python') == 5"
] | [] | |
788 | Write a function to find n-th rencontres number. | 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 check_date(11,11,2002)==True",
"assert check_date(13,11,2002)==False",
"assert check_date('11','11','2002')==True"
] | [] | |
925 | Write a python function to count the number of rotations required to generate a sorted array. | def re_arrange_tuples(test_list, ord_list):
temp = dict(test_list)
res = [(key, temp[key]) for key in ord_list]
return (res) | [
"assert road_rd(\"ravipadu Road\")==('ravipadu Rd.')",
"assert road_rd(\"palnadu Road\")==('palnadu Rd.')",
"assert road_rd(\"eshwar enclave Road\")==('eshwar enclave Rd.')"
] | [] | |
847 | Write a function to access dictionary key’s element by index. | def mutiple_tuple(nums):
temp = list(nums)
product = 1
for x in temp:
product *= x
return product | [
"assert extract_unique({'msm' : [5, 6, 7, 8],'is' : [10, 11, 7, 5],'best' : [6, 12, 10, 8],'for' : [1, 2, 5]} ) == [1, 2, 5, 6, 7, 8, 10, 11, 12]",
"assert extract_unique({'Built' : [7, 1, 9, 4],'for' : [11, 21, 36, 14, 9],'ISP' : [4, 1, 21, 39, 47],'TV' : [1, 32, 38]} ) == [1, 4, 7, 9, 11, 14, 21, 32, 36, 38, 39... | [] | |
961 | Write a function to check if the given string starts with a substring using regex. | def zip_list(list1,list2):
result = list(map(list.__add__, list1, list2))
return result | [
"assert radian_degree(90)==1.5707963267948966",
"assert radian_degree(60)==1.0471975511965976",
"assert radian_degree(120)==2.0943951023931953"
] | [] | |
726 | Write a function to find the maximum value in record list as tuple attribute in the given tuple list. | def prime_num(num):
if num >=1:
for i in range(2, num//2):
if (num % i) == 0:
return False
else:
return True
else:
return False | [
"assert _sum([1, 2, 3]) == 6",
"assert _sum([15, 12, 13, 10]) == 50",
"assert _sum([0, 1, 2]) == 3"
] | [] | |
683 | Write a function to count alphabets,digits and special charactes in a given string. | 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 remove_kth_element([1,1,2,3,4,4,5,1],3)==[1, 1, 3, 4, 4, 5, 1]",
"assert remove_kth_element([0, 0, 1, 2, 3, 4, 4, 5, 6, 6, 6, 7, 8, 9, 4, 4],4)==[0, 0, 1, 3, 4, 4, 5, 6, 6, 6, 7, 8, 9, 4, 4]",
"assert remove_kth_element([10, 10, 15, 19, 18, 18, 17, 26, 26, 17, 18, 10],5)==[10,10,15,19, 18, 17, 26, 26, 1... | [] | |
689 | Write a python function to find the minimum difference between any two elements in a given array. | import heapq
def cheap_items(items,n):
cheap_items = heapq.nsmallest(n, items, key=lambda s: s['price'])
return cheap_items | [
"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"
] | [] | |
839 | Write a function to check if a nested list is a subset of another nested list. | import math
def find_Digits(n):
if (n < 0):
return 0;
if (n <= 1):
return 1;
x = ((n * math.log10(n / math.e) + math.log10(2 * math.pi * n) /2.0));
return math.floor(x) + 1; | [
"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 )] ) == '[(... | [] | |
941 | Write a function to return true if the given number is even else return false. | import re
def extract_max(input):
numbers = re.findall('\d+',input)
numbers = map(int,numbers)
return max(numbers) | [
"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)"
] | [] | |
642 | Write a python function to check whether the roots of a quadratic equation are numerically equal but opposite in sign or not. | import re
def remove_char(S):
result = re.sub('[\W_]+', '', S)
return result | [
"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)"
] | [] | |
956 | Write a python function to check if the string is a concatenation of another string. | def float_to_tuple(test_str):
res = tuple(map(float, test_str.split(', ')))
return (res) | [
"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 ... | [] | |
648 | Write a python function to calculate the product of all the numbers of a given tuple. | def even_position(nums):
return all(nums[i]%2==i%2 for i in range(len(nums))) | [
"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"
] | [] | |
651 | Write a python function to find the largest triangle that can be inscribed in the semicircle. | from collections import deque
def check_expression(exp):
if len(exp) & 1:
return False
stack = deque()
for ch in exp:
if ch == '(' or ch == '{' or ch == '[':
stack.append(ch)
if ch == ')' or ch == '}' or ch == ']':
if not stack:
retur... | [
"assert max_of_three(10,20,30)==30",
"assert max_of_three(55,47,39)==55",
"assert max_of_three(10,49,30)==49"
] | [] | |
894 | Write a python function to find minimum adjacent swaps required to sort binary array. | 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 recur_gcd(12,14) == 2",
"assert recur_gcd(13,17) == 1",
"assert recur_gcd(9, 3) == 3"
] | [] | |
760 | Write a function to find the occurrence and position of the substrings within a string. | def Check_Vow(string, vowels):
final = [each for each in string if each in vowels]
return(len(final))
| [
"assert Odd_Length_Sum([1,2,4]) == 14",
"assert Odd_Length_Sum([1,2,1,2]) == 15",
"assert Odd_Length_Sum([1,7]) == 8"
] | [] | |
691 | Write a python function to multiply all items in the list. | def Check_Solution(a,b,c):
if b == 0:
return ("Yes")
else:
return ("No") | [
"assert merge([['x', 'y'], ['a', 'b'], ['m', 'n']]) == [['x', 'a', 'm'], ['y', 'b', 'n']]",
"assert merge([[1, 2], [3, 4], [5, 6], [7, 8]]) == [[1, 3, 5, 7], [2, 4, 6, 8]]",
"assert merge([['x', 'y','z' ], ['a', 'b','c'], ['m', 'n','o']]) == [['x', 'a', 'm'], ['y', 'b', 'n'],['z', 'c','o']]"
] | [] | |
970 | Write a function to combine two given sorted lists using heapq module. | def find_platform(arr, dep, n):
arr.sort()
dep.sort()
plat_needed = 1
result = 1
i = 1
j = 0
while (i < n and j < n):
if (arr[i] <= dep[j]):
plat_needed+= 1
i+= 1
elif (arr[i] > dep[j]):
plat_needed-= 1... | [
"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"
] | [] | |
796 | Write a python function to check whether the given strings are rotations of each other or not. | 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 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... | [] | |
896 | Write a python function to remove negative numbers from a list. | def sum_column(list1, C):
result = sum(row[C] for row in list1)
return result | [
"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]"
] | [] | |
693 | Write a function to find the perimeter of a rombus. | def cummulative_sum(test_list):
res = sum(map(sum, test_list))
return (res) | [
"assert count_range_in_list([10,20,30,40,40,40,70,80,99],40,100)==6",
"assert count_range_in_list(['a','b','c','d','e','f'],'a','e')==5",
"assert count_range_in_list([7,8,9,15,17,19,45],15,20)==3"
] | [] | |
773 | Write a function to check if the given tuple contains only k elements. | 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 check_monthnum_number(2)==True",
"assert check_monthnum_number(1)==False",
"assert check_monthnum_number(3)==False"
] | [] | |
721 | Write a function to round up a number to specific digits. | import math
def get_First_Set_Bit_Pos(n):
return math.log2(n&-n)+1 | [
"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]"
] | [] | |
947 | Write a function to find the maximum of similar indices in two lists of tuples. | def sort_numeric_strings(nums_str):
result = [int(x) for x in nums_str]
result.sort()
return result | [
"assert mul_consecutive_nums([1, 1, 3, 4, 4, 5, 6, 7])==[1, 3, 12, 16, 20, 30, 42]",
"assert mul_consecutive_nums([4, 5, 8, 9, 6, 10])==[20, 40, 72, 54, 60]",
"assert mul_consecutive_nums([1, 2, 3, 4, 5, 6, 7, 8, 9, 10])==[2, 6, 12, 20, 30, 42, 56, 72, 90]"
] | [] | |
728 | Write a function to find the minimum number of platforms required for a railway/bus station. | def Split(list):
ev_li = []
for i in list:
if (i % 2 == 0):
ev_li.append(i)
return ev_li | [
"assert Check_Solution(2,0,-1) == \"Yes\"",
"assert Check_Solution(1,-5,6) == \"No\"",
"assert Check_Solution(2,0,2) == \"Yes\""
] | [] | |
732 | Write a function to replace whitespaces with an underscore and vice versa in a given string by using regex. | def string_length(str1):
count = 0
for char in str1:
count += 1
return count | [
"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"
] | [] | |
747 | Write a function to sum elements in two lists. | import re
regex = '^[aeiouAEIOU][A-Za-z0-9_]*'
def check_str(string):
if(re.search(regex, string)):
return ("Valid")
else:
return ("Invalid") | [
"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}"
] | [] | |
785 | Write a function to find the largest possible value of k such that k modulo x is y. | def check_identical(test_list1, test_list2):
res = test_list1 == test_list2
return (res) | [
"assert replace('peep','e') == 'pep'",
"assert replace('Greek','e') == 'Grek'",
"assert replace('Moon','o') == 'Mon'"
] | [] | |
701 | Write a python function to check whether an array can be sorted or not by picking only the corner elements. | def series_sum(number):
total = 0
total = (number * (number + 1) * (2 * number + 1)) / 6
return total | [
"assert add_dict({'a': 100, 'b': 200, 'c':300},{'a': 300, 'b': 200, 'd':400})==({'b': 400, 'd': 400, 'a': 400, 'c': 300}) ",
"assert add_dict({'a': 500, 'b': 700, 'c':900},{'a': 500, 'b': 600, 'd':900})==({'b': 1300, 'd': 900, 'a': 1000, 'c': 900}) ",
"assert add_dict({'a':900,'b':900,'d':900},{'a':900,'b':900,... | [] | |
803 | Write a function to replace all occurrences of spaces, commas, or dots with a colon. | def slope(x1,y1,x2,y2):
return (float)(y2-y1)/(x2-x1) | [
"assert extract_index_list([1, 1, 3, 4, 5, 6, 7],[0, 1, 2, 3, 4, 5, 7],[0, 1, 2, 3, 4, 5, 7])==[1, 7]",
"assert extract_index_list([1, 1, 3, 4, 5, 6, 7],[0, 1, 2, 3, 4, 6, 5],[0, 1, 2, 3, 4, 6, 7])==[1, 6]",
"assert extract_index_list([1, 1, 3, 4, 6, 5, 6],[0, 1, 2, 3, 4, 5, 7],[0, 1, 2, 3, 4, 5, 7])==[1, 5]"
] | [] | |
900 | Write a python function to move all zeroes to the end of the given list. | def are_Equal(arr1,arr2,n,m):
if (n != m):
return False
arr1.sort()
arr2.sort()
for i in range(0,n - 1):
if (arr1[i] != arr2[i]):
return False
return True | [
"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'"
] | [] |
End of preview. Expand in Data Studio
edition_2867_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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