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 |
|---|---|---|---|---|---|
922 | Write a function to find the median of two sorted arrays of same size. | def lcopy(xs):
return xs[:]
| [
"assert check_date(11,11,2002)==True",
"assert check_date(13,11,2002)==False",
"assert check_date('11','11','2002')==True"
] | [] | |
731 | Write a function to check if each element of second tuple is smaller than its corresponding index in first tuple. | def ntimes_list(nums,n):
result = map(lambda x:n*x, nums)
return list(result) | [
"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 )] ) == '[(... | [] | |
911 | Write a python function to remove the k'th element from a given list. | def join_tuples(test_list):
res = []
for sub in test_list:
if res and res[-1][0] == sub[0]:
res[-1].extend(sub[1:])
else:
res.append([ele for ele in sub])
res = list(map(tuple, res))
return (res) | [
"assert count_Unset_Bits(2) == 1",
"assert count_Unset_Bits(5) == 4",
"assert count_Unset_Bits(14) == 17"
] | [] | |
862 | Write a function to find the minimum number of elements that should be removed such that amax-amin<=k. | import bisect
def right_insertion(a, x):
i = bisect.bisect_right(a, x)
return i | [
"assert round_up(123.01247,0)==124",
"assert round_up(123.01247,1)==123.1",
"assert round_up(123.01247,2)==123.02"
] | [] | |
696 | Write a function to calculate the sum of all digits of the base to the specified power. | from collections import Counter
def max_char(str1):
temp = Counter(str1)
max_char = max(temp, key = temp.get)
return max_char | [
"assert test_three_equal(1,1,1) == 3",
"assert test_three_equal(-1,-2,-3) == 0",
"assert test_three_equal(1,2,2) == 2"
] | [] | |
627 | Write a python function to choose points from two ranges such that no point lies in both the ranges. | 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 multiply_list([1,-2,3]) == -6",
"assert multiply_list([1,2,3,4]) == 24",
"assert multiply_list([3,1,2,3]) == 18"
] | [] | |
611 | Write a function to display sign of the chinese zodiac for given year. | import re
def replace_specialchar(text):
return (re.sub("[ ,.]", ":", text))
| [
"assert sector_area(4,45)==6.285714285714286",
"assert sector_area(9,45)==31.82142857142857",
"assert sector_area(9,360)==None"
] | [] | |
770 | Write a python function to find the sum of an array. | def check_smaller(test_tup1, test_tup2):
res = all(x > y for x, y in zip(test_tup1, test_tup2))
return (res) | [
"assert smallest_multiple(13)==360360",
"assert smallest_multiple(2)==2",
"assert smallest_multiple(1)==1"
] | [] | |
745 | Write a function to calculate the geometric sum of n-1. | def check_subset(list1,list2):
return all(map(list1.__contains__,list2)) | [
"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]"
] | [] | |
835 | Write a function to merge two dictionaries into a single expression. | def check_identical(test_list1, test_list2):
res = test_list1 == test_list2
return (res) | [
"assert slope(4,2,2,5) == -1.5",
"assert slope(2,4,4,6) == 1",
"assert slope(1,2,4,2) == 0"
] | [] | |
607 | Write a function to find the smallest multiple of the first n numbers. | import re
def remove_all_spaces(text):
return (re.sub(r'\s+', '',text)) | [
"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]"
] | [] | |
701 | Write a python function to remove even numbers from a given list. | def sort_sublists(list1):
list1.sort()
list1.sort(key=len)
return list1 | [
"assert check_Concat(\"abcabcabc\",\"abc\") == True",
"assert check_Concat(\"abcab\",\"abc\") == False",
"assert check_Concat(\"aba\",\"ab\") == False"
] | [] | |
866 | Write a function to push all values into a heap and then pop off the smallest values one at a time. | def harmonic_sum(n):
if n < 2:
return 1
else:
return 1 / n + (harmonic_sum(n - 1)) | [
"assert product_Equal(2841) == True",
"assert product_Equal(1234) == False",
"assert product_Equal(1212) == False"
] | [] | |
970 | Write a function to remove all the words with k length in the given string. | def slope(x1,y1,x2,y2):
return (float)(y2-y1)/(x2-x1) | [
"assert parallelogram_perimeter(10,20)==400",
"assert parallelogram_perimeter(15,20)==600",
"assert parallelogram_perimeter(8,9)==144"
] | [] | |
913 | Write a function to divide two lists using map and lambda function. | import re
def remove_parenthesis(items):
for item in items:
return (re.sub(r" ?\([^)]+\)", "", item)) | [
"assert count_Set_Bits(16) == 33",
"assert count_Set_Bits(2) == 2",
"assert count_Set_Bits(14) == 28"
] | [] | |
954 | Write a python function to count occurences of a character in a repeated string. | 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 count_Divisors(10) == \"Even\"",
"assert count_Divisors(100) == \"Odd\"",
"assert count_Divisors(125) == \"Even\""
] | [] | |
776 | Write a function to get the length of a complex number. | import heapq
def cheap_items(items,n):
cheap_items = heapq.nsmallest(n, items, key=lambda s: s['price'])
return cheap_items | [
"assert check_monthnum_number(2)==True",
"assert check_monthnum_number(1)==False",
"assert check_monthnum_number(3)==False"
] | [] | |
635 | Write a function to check a decimal with a precision of 2. | 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 arc_length(9,45)==3.5357142857142856",
"assert arc_length(9,480)==None",
"assert arc_length(5,270)==11.785714285714285"
] | [] | |
759 | Write a python function to find the sum of all odd natural numbers within the range l and r. | 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 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'"
] | [] | |
888 | Write a function to calculate the height of the given binary tree. | 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 road_rd(\"ravipadu Road\")==('ravipadu Rd.')",
"assert road_rd(\"palnadu Road\")==('palnadu Rd.')",
"assert road_rd(\"eshwar enclave Road\")==('eshwar enclave Rd.')"
] | [] | |
904 | Write a python function to count the number of equal numbers from three given integers. | def rotate_right(list1,m,n):
result = list1[-(m):]+list1[:-(n)]
return result | [
"assert get_Pairs_Count([1,1,1,1],4,2) == 6",
"assert get_Pairs_Count([1,5,7,-1,5],5,6) == 3",
"assert get_Pairs_Count([1,-2,3],3,1) == 1"
] | [] | |
683 | Write a function to find numbers divisible by m or n from a list of numbers using lambda function. | 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 Sum(60) == 10",
"assert Sum(39) == 16",
"assert Sum(40) == 7"
] | [] | |
951 | Write a function to find the cumulative sum of all the values that are present in the given tuple list. | import math
def sum_series(number):
total = 0
total = math.pow((number * (number + 1)) /2, 2)
return total | [
"assert bell_Number(2) == 2",
"assert bell_Number(3) == 5",
"assert bell_Number(4) == 15"
] | [] | |
930 | 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 (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]"
] | [] | |
864 | Write a python function to find the smallest prime divisor of a number. | def check_subset(test_tup1, test_tup2):
res = set(test_tup2).issubset(test_tup1)
return (res) | [
"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"
] | [] | |
744 | Write a function to count occurrence of a character in a string. | import math
def lateralsurface_cone(r,h):
l = math.sqrt(r * r + h * h)
LSA = math.pi * r * l
return LSA | [
"assert reverse_words(\"python program\")==(\"program python\")",
"assert reverse_words(\"java language\")==(\"language java\")",
"assert reverse_words(\"indian man\")==(\"man indian\")"
] | [] | |
628 | Write a python function to convert a list of multiple integers into a single integer. | def is_Word_Present(sentence,word):
s = sentence.split(" ")
for i in s:
if (i == word):
return True
return False | [
"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,... | [] | |
721 | Write a function to find the area of a rombus. | def is_nonagonal(n):
return int(n * (7 * n - 5) / 2) | [
"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"
] | [] | |
666 | Write a python function to move all zeroes to the end of the given list. | def Diff(li1,li2):
return (list(list(set(li1)-set(li2)) + list(set(li2)-set(li1))))
| [
"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... | [] | |
643 | Write a function to find the nth nonagonal number. | def count_char(string,char):
count = 0
for i in range(len(string)):
if(string[i] == char):
count = count + 1
return count | [
"assert find_first_occurrence([2, 5, 5, 5, 6, 6, 8, 9, 9, 9], 5) == 1",
"assert find_first_occurrence([2, 3, 5, 5, 6, 6, 8, 9, 9, 9], 5) == 2",
"assert find_first_occurrence([2, 4, 1, 5, 6, 6, 8, 9, 9, 9], 6) == 4"
] | [] | |
811 | Write a function to find a path with the maximum average over all existing paths for the given square matrix of size n*n. | 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 find_max_val(15, 10, 5) == 15",
"assert find_max_val(187, 10, 5) == 185",
"assert find_max_val(16, 11, 1) == 12"
] | [] | |
601 | Write a function to find the largest possible value of k such that k modulo x is y. | def max_run_uppercase(test_str):
cnt = 0
res = 0
for idx in range(0, len(test_str)):
if test_str[idx].isupper():
cnt += 1
else:
res = cnt
cnt = 0
if test_str[len(test_str) - 1].isupper():
res = cnt
return (res) | [
"assert smallest_Divisor(10) == 2",
"assert smallest_Divisor(25) == 5",
"assert smallest_Divisor(31) == 31"
] | [] | |
605 | Write a function to convert degrees to radians. | import cmath
def len_complex(a,b):
cn=complex(a,b)
length=abs(cn)
return length | [
"assert check_subset([[1, 3], [5, 7], [9, 11], [13, 15, 17]] ,[[1, 3],[13,15,17]])==True",
"assert check_subset([[1, 2], [2, 3], [3, 4], [5, 6]],[[3, 4], [5, 6]])==True",
"assert check_subset([[[1, 2], [2, 3]], [[3, 4], [5, 7]]],[[[3, 4], [5, 6]]])==False"
] | [] | |
852 | Write a function to sort a list in a dictionary. | def cummulative_sum(test_list):
res = sum(map(sum, test_list))
return (res) | [
"assert max_product([1, 2, 3, 4, 7, 0, 8, 4])==(7, 8)",
"assert max_product([0, -1, -2, -4, 5, 0, -6])==(-4, -6)",
"assert max_product([1, 3, 5, 6, 8, 9])==(8,9)"
] | [] | |
871 | Write a function to check whether the given key is present in the dictionary or not. | def find_First_Missing(array,start,end):
if (start > end):
return end + 1
if (start != array[start]):
return start;
mid = int((start + end) / 2)
if (array[mid] == mid):
return find_First_Missing(array,mid+1,end)
return find_First_Missing(array,start,mid) | [
"assert rectangle_perimeter(10,20)==60",
"assert rectangle_perimeter(10,5)==30",
"assert rectangle_perimeter(4,2)==12"
] | [] | |
670 | Write a function to find common index elements from three lists. | def all_Bits_Set_In_The_Given_Range(n,l,r):
num = ((1 << r) - 1) ^ ((1 << (l - 1)) - 1)
new_num = n & num
if (num == new_num):
return True
return False | [
"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 ... | [] | |
936 | Write a function to find the n-th power of individual elements in a list using lambda function. | def return_sum(dict):
sum = 0
for i in dict.values():
sum = sum + i
return sum | [
"assert all_Characters_Same(\"python\") == False",
"assert all_Characters_Same(\"aaa\") == True",
"assert all_Characters_Same(\"data\") == False"
] | [] | |
885 | Write a function to iterate over all pairs of consecutive items in a given list. | def Check_Solution(a,b,c):
if b == 0:
return ("Yes")
else:
return ("No") | [
"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]"
] | [] | |
868 | Write a function that matches a word containing 'z', not at the start or end of the word. | import re
def split_list(text):
return (re.findall('[A-Z][^A-Z]*', text)) | [
"assert count_variable(4,2,0,-2)==['p', 'p', 'p', 'p', 'q', 'q'] ",
"assert count_variable(0,1,2,3)==['q', 'r', 'r', 's', 's', 's'] ",
"assert count_variable(11,15,12,23)==['p', 'p', 'p', 'p', 'p', 'p', 'p', 'p', 'p', 'p', 'p', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'q', 'r', 'r',... | [] | |
702 | Write a function to check if the given string starts with a substring using regex. | def factorial(start,end):
res = 1
for i in range(start,end + 1):
res *= i
return res
def sum_of_square(n):
return int(factorial(n + 1, 2 * n) /factorial(1, 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... | [] | |
796 | Write a python function to check whether the product of digits of a number at even and odd places is equal or not. | def extract_unique(test_dict):
res = list(sorted({ele for val in test_dict.values() for ele in val}))
return res | [
"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)] "
] | [] | |
847 | Write a python function to interchange first and last elements in a given list. | INT_BITS = 32
def left_Rotate(n,d):
return (n << d)|(n >> (INT_BITS - d)) | [
"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']]"
] | [] | |
772 | Write a python function to find the type of triangle from the given sides. | 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 Check_Solution(2,0,2) == \"Yes\"",
"assert Check_Solution(2,-5,2) == \"Yes\"",
"assert Check_Solution(1,2,3) == \"No\""
] | [] | |
827 | Write a python function to find the largest triangle that can be inscribed in the semicircle. | def rombus_area(p,q):
area=(p*q)/2
return area | [
"assert count_tuplex((2, 4, 5, 6, 2, 3, 4, 4, 7),4)==3",
"assert count_tuplex((2, 4, 5, 6, 2, 3, 4, 4, 7),2)==2",
"assert count_tuplex((2, 4, 7, 7, 7, 3, 4, 4, 7),7)==4"
] | [] | |
798 | Write a python function to check whether a sequence of numbers has a decreasing trend or not. | def geometric_sum(n):
if n < 0:
return 0
else:
return 1 / (pow(2, n)) + geometric_sum(n - 1) | [
"assert floor_Min(10,20,30) == 15",
"assert floor_Min(1,2,1) == 0",
"assert floor_Min(11,10,9) == 9"
] | [] | |
914 | Write a function to remove everything except alphanumeric characters from the given string by using regex. | def remove_spaces(str1):
str1 = str1.replace(' ','')
return str1 | [
"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"
] | [] | |
943 | Write a function that matches a string that has an 'a' followed by anything, ending in 'b' by using regex. | import collections as ct
def merge_dictionaries(dict1,dict2):
merged_dict = dict(ct.ChainMap({}, dict1, dict2))
return merged_dict | [
"assert nCr_mod_p(10, 2, 13) == 6",
"assert nCr_mod_p(11, 3, 14) == 11",
"assert nCr_mod_p(18, 14, 19) == 1"
] | [] | |
927 | Write a python function to find the sum of squares of binomial co-efficients. | def chunk_tuples(test_tup, N):
res = [test_tup[i : i + N] for i in range(0, len(test_tup), N)]
return (res) | [
"assert remove_spaces('python program')==('python program')",
"assert remove_spaces('python programming language')==('python programming language')",
"assert remove_spaces('python program')==('python program')"
] | [] | |
801 | Write a python function to count the number of digits in factorial of a given number. | def sector_area(r,a):
pi=22/7
if a >= 360:
return None
sectorarea = (pi*r**2) * (a/360)
return sectorarea | [
"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]"
] | [] | |
637 | Write a function to reverse words in a given string. | def check(arr,n):
g = 0
for i in range(1,n):
if (arr[i] - arr[i - 1] > 0 and g == 1):
return False
if (arr[i] - arr[i] < 0):
g = 1
return True | [
"assert fifth_Power_Sum(2) == 33",
"assert fifth_Power_Sum(4) == 1300",
"assert fifth_Power_Sum(3) == 276"
] | [] | |
644 | Write a python function to check whether the given string is made up of two alternating characters or not. | def Extract(lst):
return [item[-1] for item in lst] | [
"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'"
] | [] | |
899 | Write a function to find length of the string. | 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 check_str(\"annie\") == 'Valid'",
"assert check_str(\"dawood\") == 'Invalid'",
"assert check_str(\"Else\") == 'Valid'"
] | [] | |
917 | Write a function to check if a nested list is a subset of another nested list. | def check_K(test_tup, K):
res = False
for ele in test_tup:
if ele == K:
res = True
break
return (res) | [
"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"
] | [] | |
755 | Write a python function to find maximum possible value for the given periodic function. | def remove_list_range(list1, leftrange, rigthrange):
result = [i for i in list1 if (min(i)>=leftrange and max(i)<=rigthrange)]
return result | [
"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], ... | [] | |
740 | Write a function to find the fixed point in the given array. | def count_Set_Bits(n) :
n += 1;
powerOf2 = 2;
cnt = n // 2;
while (powerOf2 <= n) :
totalPairs = n // powerOf2;
cnt += (totalPairs // 2) * powerOf2;
if (totalPairs & 1) :
cnt += (n % powerOf2)
else :
cnt += 0
powe... | [
"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]"
] | [] | |
840 | Write a function to add the given tuple to the given list. | import re
def road_rd(street):
return (re.sub('Road$', 'Rd.', street)) | [
"assert jacobsthal_num(5) == 11",
"assert jacobsthal_num(2) == 1",
"assert jacobsthal_num(4) == 5"
] | [] | |
647 | Write a function to find the second smallest number in a list. | 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 check_expression(\"{()}[{}]\") == True",
"assert check_expression(\"{()}[{]\") == False",
"assert check_expression(\"{()}[{}][]({})\") == True"
] | [] | |
709 | Write a function to check if one tuple is a subset of another tuple. | def reverse_Array_Upto_K(input, k):
return (input[k-1::-1] + input[k:]) | [
"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"
] | [] | |
642 | Write a function to generate a square matrix filled with elements from 1 to n raised to the power of 2 in spiral order. | 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 triangle_area(0) == 0",
"assert triangle_area(-1) == -1",
"assert triangle_area(2) == 4"
] | [] | |
717 | Write a function that matches a string that has an a followed by zero or more b's. | 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 matrix_to_list([[(4, 5), (7, 8)], [(10, 13), (18, 17)], [(0, 4), (10, 1)]]) == '[(4, 7, 10, 18, 0, 10), (5, 8, 13, 17, 4, 1)]'",
"assert matrix_to_list([[(5, 6), (8, 9)], [(11, 14), (19, 18)], [(1, 5), (11, 2)]]) == '[(5, 8, 11, 19, 1, 11), (6, 9, 14, 18, 5, 2)]'",
"assert matrix_to_list([[(6, 7), (9, 1... | [] | |
822 | Write a python function to count the total set bits from 1 to n. | def find_fixed_point(arr, n):
for i in range(n):
if arr[i] is i:
return i
return -1 | [
"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]"
] | [] | |
895 | Write a python function to find nth bell number. | def get_Number(n, k):
arr = [0] * n;
i = 0;
odd = 1;
while (odd <= n):
arr[i] = odd;
i += 1;
odd += 2;
even = 2;
while (even <= n):
arr[i] = even;
i += 1;
even += 2;
return arr[k - 1]; | [
"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,... | [] | |
910 | Write a python function to find the slope of a line. | def len_log(list1):
min=len(list1[0])
for i in list1:
if len(i)<min:
min=len(i)
return min | [
"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]"
] | [] | |
842 | Write a function to re-arrange the given tuples based on the given ordered list. | def previous_palindrome(num):
for x in range(num-1,0,-1):
if str(x) == str(x)[::-1]:
return x | [
"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"
] | [] | |
708 | Write a python function to count the total unset bits from 1 to n. | def last_Two_Digits(N):
if (N >= 10):
return
fac = 1
for i in range(1,N + 1):
fac = (fac * i) % 100
return (fac) | [
"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"
] | [] | |
743 | Write a function to check whether the given ip address is valid or not using regex. | def multiply_list(items):
tot = 1
for x in items:
tot *= x
return tot | [
"assert (max_height(root)) == 3",
"assert (max_height(root1)) == 5 ",
"assert (max_height(root2)) == 4"
] | [] | |
754 | Write a python function to get the last element of each sublist. | def decreasing_trend(nums):
if (sorted(nums)== nums):
return True
else:
return False | [
"assert div_list([4,5,6],[1, 2, 3])==[4.0,2.5,2.0]",
"assert div_list([3,2],[1,4])==[3.0, 0.5]",
"assert div_list([90,120],[50,70])==[1.8, 1.7142857142857142]"
] | [] | |
718 | Write a function to get dictionary keys as a list. | 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 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"
] | [] | |
652 | Write a function to solve the fibonacci sequence using recursion. | def Split(list):
ev_li = []
for i in list:
if (i % 2 == 0):
ev_li.append(i)
return ev_li | [
"assert convert([1,2,3]) == 123",
"assert convert([4,5,6]) == 456",
"assert convert([7,8,9]) == 789"
] | [] | |
663 | Write a python function to find lcm of two positive integers. | def Sum_of_Inverse_Divisors(N,Sum):
ans = float(Sum)*1.0 /float(N);
return round(ans,2); | [
"assert is_Perfect_Square(10) == False",
"assert is_Perfect_Square(36) == True",
"assert is_Perfect_Square(14) == False"
] | [] | |
880 | Write a function to check if the given tuple contains all valid values or not. | 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 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')"
] | [] | |
836 | Write a function to find the list in a list of lists whose sum of elements is the highest. | def add_dict_to_tuple(test_tup, test_dict):
test_tup = list(test_tup)
test_tup.append(test_dict)
test_tup = tuple(test_tup)
return (test_tup) | [
"assert dealnnoy_num(3, 4) == 129",
"assert dealnnoy_num(3, 3) == 63",
"assert dealnnoy_num(4, 5) == 681"
] | [] | |
804 | Write a python function to check whether the roots of a quadratic equation are numerically equal but opposite in sign 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 int_to_roman(1)==(\"I\")",
"assert int_to_roman(50)==(\"L\")",
"assert int_to_roman(4)==(\"IV\")"
] | [] | |
736 | Write a function that matches a string that has an a followed by zero or one 'b'. | from collections import defaultdict
def get_unique(test_list):
res = defaultdict(list)
for sub in test_list:
res[sub[1]].append(sub[0])
res = dict(res)
res_dict = dict()
for key in res:
res_dict[key] = len(list(set(res[key])))
return (str(res_dict)) | [
"assert increasing_trend([1,2,3,4]) == True",
"assert increasing_trend([4,3,2,1]) == False",
"assert increasing_trend([0,1,4,9]) == True"
] | [] | |
902 | Write a function to validate a gregorian date. | def mul_list(nums1,nums2):
result = map(lambda x, y: x * y, nums1, nums2)
return list(result) | [
"assert find_Min_Sum([3,2,1],[2,1,3],3) == 0",
"assert find_Min_Sum([1,2,3],[4,5,6],3) == 9",
"assert find_Min_Sum([4,1,8,7],[2,3,6,5],4) == 6"
] | [] | |
684 | Write a python function to find the sum of xor of all pairs of numbers in the given array. | def convert(list):
s = [str(i) for i in list]
res = int("".join(s))
return (res) | [
"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',... | [] | |
799 | Write a function to check whether the given month number contains 30 days or not. | def find_first_occurrence(A, x):
(left, right) = (0, len(A) - 1)
result = -1
while left <= right:
mid = (left + right) // 2
if x == A[mid]:
result = mid
right = mid - 1
elif x < A[mid]:
right = mid - 1
else:
left = mi... | [
"assert sum_nums(2,10,11,20)==20",
"assert sum_nums(15,17,1,10)==32",
"assert sum_nums(10,15,5,30)==20"
] | [] | |
751 | Write a function that matches a string that has an a followed by three 'b'. | def sum_column(list1, C):
result = sum(row[C] for row in list1)
return result | [
"assert chunk_tuples((10, 4, 5, 6, 7, 6, 8, 3, 4), 3) == [(10, 4, 5), (6, 7, 6), (8, 3, 4)]",
"assert chunk_tuples((1, 2, 3, 4, 5, 6, 7, 8, 9), 2) == [(1, 2), (3, 4), (5, 6), (7, 8), (9,)]",
"assert chunk_tuples((11, 14, 16, 17, 19, 21, 22, 25), 4) == [(11, 14, 16, 17), (19, 21, 22, 25)]"
] | [] | |
661 | Write a function to remove sublists from a given list of lists, which are outside a given range. | 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 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... | [] | |
925 | Write a function to find the previous palindrome of a specified number. | def swap_List(newList):
size = len(newList)
temp = newList[0]
newList[0] = newList[size - 1]
newList[size - 1] = temp
return newList | [
"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)]) == ... | [] | |
824 | Write a function to sort a list in increasing order by the last element in each tuple from a given list of non-empty tuples. | def check_monthnum_number(monthnum1):
if monthnum1 == 2:
return True
else:
return False | [
"assert radian_degree(90)==1.5707963267948966",
"assert radian_degree(60)==1.0471975511965976",
"assert radian_degree(120)==2.0943951023931953"
] | [] | |
933 | 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 sum_of_odd_Factors(30) == 24",
"assert sum_of_odd_Factors(18) == 13",
"assert sum_of_odd_Factors(2) == 1"
] | [] | |
949 | Write a python function to get the difference between two lists. | def is_decimal(num):
import re
dnumre = re.compile(r"""^[0-9]+(\.[0-9]{1,2})?$""")
result = dnumre.search(num)
return bool(result) | [
"assert _sum([1, 2, 3]) == 6",
"assert _sum([15, 12, 13, 10]) == 50",
"assert _sum([0, 1, 2]) == 3"
] | [] | |
694 | Write a function to count coin change. | def lcs_of_three(X, Y, Z, m, n, o):
L = [[[0 for i in range(o+1)] for j in range(n+1)]
for k in range(m+1)]
for i in range(m+1):
for j in range(n+1):
for k in range(o+1):
if (i == 0 or j == 0 or k == 0):
L[i][j][k] = 0
elif (X[i-1] == Y[j-1] and
X[i-1] == Z[k-1]):
L[i][... | [
"assert min_difference([(3, 5), (1, 7), (10, 3), (1, 2)]) == 1",
"assert min_difference([(4, 6), (12, 8), (11, 4), (2, 13)]) == 2",
"assert min_difference([(5, 17), (3, 9), (12, 5), (3, 24)]) == 6"
] | [] | |
658 | Write a function to convert the given string of float type into tuple. | 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_element((4, 5, 7, 9, 3), [6, 7, 10, 11]) == True",
"assert check_element((1, 2, 3, 4), [4, 6, 7, 8, 9]) == True",
"assert check_element((3, 2, 1, 4, 5), [9, 8, 7, 6]) == False"
] | [] | |
641 | Write a function to remove all whitespaces from a string. | 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 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]"
] | [] | |
742 | Write a python function to check whether the given number is odd or not using bitwise operator. | def find_Min_Sum(a,b,n):
a.sort()
b.sort()
sum = 0
for i in range(n):
sum = sum + abs(a[i] - b[i])
return sum | [
"assert camel_to_snake('PythonProgram')==('python_program')",
"assert camel_to_snake('pythonLanguage')==('python_language')",
"assert camel_to_snake('ProgrammingLanguage')==('programming_language')"
] | [] | |
774 | Write a function to reverse each list in a given list of lists. | def equilibrium_index(arr):
total_sum = sum(arr)
left_sum=0
for i, num in enumerate(arr):
total_sum -= num
if left_sum == total_sum:
return i
left_sum += num
return -1 | [
"assert multiply_elements((1, 5, 7, 8, 10)) == (5, 35, 56, 80)",
"assert multiply_elements((2, 4, 5, 6, 7)) == (8, 20, 30, 42)",
"assert multiply_elements((12, 13, 14, 9, 15)) == (156, 182, 126, 135)"
] | [] | |
753 | Write a function to count repeated items of a tuple. | def sum_num(numbers):
total = 0
for x in numbers:
total += x
return total/len(numbers) | [
"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]"
] | [] | |
682 | Write a function to find the nth super ugly number from a given prime list of size k using heap queue algorithm. | def coin_change(S, m, n):
table = [[0 for x in range(m)] for x in range(n+1)]
for i in range(m):
table[0][i] = 1
for i in range(1, n+1):
for j in range(m):
x = table[i - S[j]][j] if i-S[j] >= 0 else 0
y = table[i][j-1] if j >= 1 else 0
table[... | [
"assert check_subset((10, 4, 5, 6), (5, 10)) == True",
"assert check_subset((1, 2, 3, 4), (5, 6)) == False",
"assert check_subset((7, 8, 9, 10), (10, 8)) == True"
] | [] | |
821 | Write a function to find the occurrences of n most common words in a given text. | def word_len(s):
s = s.split(' ')
for word in s:
if len(word)%2==0:
return True
else:
return False | [
"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]]"... | [] | |
832 | Write a function to check if the given tuple has any none value or not. | 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 reverse_Array_Upto_K([1, 2, 3, 4, 5, 6],4) == [4, 3, 2, 1, 5, 6]",
"assert reverse_Array_Upto_K([4, 5, 6, 7], 2) == [5, 4, 6, 7]",
"assert reverse_Array_Upto_K([9, 8, 7, 6, 5],3) == [7, 8, 9, 6, 5]"
] | [] | |
784 | Write a function to calculate wind chill index. | 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 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'"
] | [] | |
781 | Write a function to count the number of inversions in the given array. | def min_of_two( x, y ):
if x < y:
return x
return y | [
"assert Check_Solution(2,5,2) == \"2 solutions\"",
"assert Check_Solution(1,1,1) == \"No solutions\"",
"assert Check_Solution(1,2,1) == \"1 solution\""
] | [] | |
783 | Write a function to check if the given tuples contain the k or not. | def check_tuples(test_tuple, K):
res = all(ele in K for ele in test_tuple)
return (res) | [
"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}"
] | [] | |
857 | Write a python function to find sum of products of all possible subarrays. | 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 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], [... | [] | |
960 | Write a function to multiply consecutive numbers of a given list. | def remove_duplic_list(l):
temp = []
for x in l:
if x not in temp:
temp.append(x)
return temp | [
"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)"
] | [] | |
768 | Write a python function to remove negative numbers from a list. | def parallelogram_perimeter(b,h):
perimeter=2*(b*h)
return perimeter | [
"assert min_Swaps(\"0011\",\"1111\") == 1",
"assert min_Swaps(\"00011\",\"01001\") == 2",
"assert min_Swaps(\"111\",\"111\") == 0"
] | [] | |
875 | Write a function to caluclate arc length of an angle. | def is_upper(string):
return (string.upper()) | [
"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"
] | [] | |
638 | Write a python function to count number of cubes of size k in a cube of size n. | 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 check_greater((10, 4, 5), (13, 5, 18)) == True",
"assert check_greater((1, 2, 3), (2, 1, 4)) == False",
"assert check_greater((4, 5, 6), (5, 6, 7)) == True"
] | [] |
End of preview. Expand in Data Studio
edition_0715_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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