def testing(actual, expected):
Test.assert_equals(actual, expected)
if temp not in include_prime:
include_prime.append(temp)
temp = temp / temp
last_i = temp
out_temp = n
for i in include_prime:
out_temp = out_temp * (1 - 1.0 / i)
return int(out_temp)
if __name__ == "__main__":
t0 = time.time()
Test.assert_equals(proper_fractions(1), 0)
Test.assert_equals(proper_fractions(2), 1)
Test.assert_equals(proper_fractions(5), 4)
Test.assert_equals(proper_fractions(15), 8)
Test.assert_equals(proper_fractions(25), 20)
Test.assert_equals(proper_fractions(12345656798), 82260072)
print(time.time() - t0)
'''
def proper_fractions(n):
phi = n > 1 and n
for p in range(2, int(n ** .5) + 1):
if not n % p:
phi -= phi // p
while not n % p:
n //= p
out_temp= []
while array:
out_temp.extend(array[0][:])
array= rotate(array[1:])
return out_temp
if __name__ == "__main__":
t0 = time.perf_counter()
array = [[1,2,3],
[4,5,6],
[7,8,9]]
expected = [1,2,3,6,9,8,7,4,5]
test.assert_equals(snail(array), expected)
array = [[1,2,3],
[8,9,4],
[7,6,5]]
expected = [1,2,3,4,5,6,7,8,9]
test.assert_equals(snail(array), expected)
print(time.perf_counter() - t0)
'''
else:
pass
out_temp = out_temp[::-1]
for i in range(min(out_flag, 2)):
out_temp = out_temp.replace(" ,", format_t[i], 1)
out_temp = out_temp[::-1]
return out_temp
else:
return "now"
if __name__ == "__main__":
# t0 = time.perf_counter()
test.assert_equals(format_duration(1), "1 second")
test.assert_equals(format_duration(62), "1 minute and 2 seconds")
test.assert_equals(format_duration(120), "2 minutes")
test.assert_equals(format_duration(3600), "1 hour")
test.assert_equals(format_duration(3662), "1 hour, 1 minute and 2 seconds")
test.assert_equals(format_duration(31536000), "1 year")
# print(time.perf_counter() - t0)
'''
import sys
sys.path.append('../')
import cw as test
#import time
debug = 1
def issquare(x):
return sqrt(x) == int(sqrt(x))
def list_squared(m, n):
out_list = []
for x in range(m, n + 1):
sum_t = sum((i**2 + (x // i)**2 * (x / i != i))
for i in range(1,
int(sqrt(x)) + 1) if x % i == 0)
if issquare(sum_t):
out_list.append([x, sum_t])
return out_list
if __name__ == "__main__":
t0 = time.perf_counter()
list_squared(394, 16049)
Test.assert_equals(list_squared(1, 250),
[[1, 1], [42, 2500], [246, 84100]])
Test.assert_equals(list_squared(42, 250), [[42, 2500], [246, 84100]])
Test.assert_equals(list_squared(250, 500), [[287, 84100]])
print(time.perf_counter() - t0)
'''
o(nlogn)
I think I'm best,hhhh!
'''
if isinstance(array[array.index(0)], bool):
pos.append(array.index(0) + bool_times)
bool_times += 1
else:
array.append(0)
array.remove(0)
for i in pos:
array.insert(i, False)
else:
pass
return array
if __name__ == "__main__":
Test.describe("Basic tests")
Test.assert_equals(move_zeros([1, 2, 0, 1, 0, 1, 0, 3, 0, 1]),
[1, 2, 1, 1, 3, 1, 0, 0, 0, 0])
Test.assert_equals(
move_zeros(
[9, 0.0, 0, 9, 1, 2, 0, 1, 0, 1, 0.0, 3, 0, 1, 9, 0, 0, 0, 0, 9]),
[9, 9, 1, 2, 1, 1, 3, 1, 9, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0])
Test.assert_equals(
move_zeros([
"a", 0, 0, "b", "c", "d", 0, 1, 0, 1, 0, 3, 0, 1, 9, 0, 0, 0, 0, 9
]),
["a", "b", "c", "d", 1, 1, 3, 1, 9, 9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0])
Test.assert_equals(
move_zeros([
"a", 0, 0, "b", None, "c", "d", 0, 1, False, 0, 1, 0, 3, [], 0, 1,
9, 0, 0, {}, 0, 0, 9
]), [
"a", "b", None, "c", "d", 1, False, 1, 3, [], 1, 9, {}, 9, 0, 0, 0,
else:
pass
else:
if flag:
out_temp.append([j, sum_temp])
else:
pass
return out_temp
if __name__ == "__main__":
t0 = time.perf_counter()
a = [12, 15]
test.assert_equals(sum_for_list(a), [[2, 12], [3, 27], [5, 15]])
print(time.perf_counter() - t0)
'''
def last_digit(lst):
if not lst:
return 1
else:
out = 1
for n in lst[len(lst):0:-1]:
out = n**out
if out > 2:
out -= 2
out %= 4
out += 2
return lst[0]**out% 10
t1 = (count_str_alpha(s1))
print(t1)
t2 = (count_str_alpha(s2))
print(t2)
t2.update(t1)
print(t2)
return 0
#count_alpha(count_str_alpha(s1))
if __name__ == "__main__":
t0 = time.perf_counter()
Test.describe("Mix")
Test.it("Basic Tests")
Test.assert_equals(mix("Are they here", "yes, they are here"),
"2:eeeee/2:yy/=:hh/=:rr")
# Test.assert_equals(mix("looping is fun but dangerous", "less dangerous than coding"), "1:ooo/1:uuu/2:sss/=:nnn/1:ii/2:aa/2:dd/2:ee/=:gg")
# Test.assert_equals(mix(" In many languages", " there's a pair of functions"), "1:aaa/1:nnn/1:gg/2:ee/2:ff/2:ii/2:oo/2:rr/2:ss/2:tt")
# Test.assert_equals(mix("Lords of the Fallen", "gamekult"), "1:ee/1:ll/1:oo")
# Test.assert_equals(mix("codewars", "codewars"), "")
# Test.assert_equals(mix("A generation must confront the looming ", "codewarrs"), "1:nnnnn/1:ooooo/1:tttt/1:eee/1:gg/1:ii/1:mm/=:rr")
print(time.perf_counter() - t0)
'''
def pick_peaks(arr):
pos = []
prob_peak = False
for i in range(1, len(arr)):
if arr[i] > arr[i-1]:
prob_peak = i
elif arr[i] < arr[i-1] and prob_peak:
start_t = 1
decimal.getcontext().prec = 7
decimal.getcontext().rounding = decimal.ROUND_DOWN
first_num = factorial(n)
log_t = ceil(log(1000000, max(2, n)))
if log_t < n:
start_t = n - log_t
debug_print(1, start_t)
second_num = sum(factorial(x) for x in range(start_t, n + 1))
return float(decimal.Decimal(second_num) / decimal.Decimal(first_num))
if __name__ == "__main__":
print(factorial(100))
test.assert_equals(going(5), 1.275)
test.assert_equals(going(40), 1.2125)
test.assert_equals(going(100), 1.173214)
test.assert_equals(going(101), 1.005434)
test.assert_equals(going(501), 1.005025)
test.assert_equals(going(1000), 1.007246)
print(going(40000))
'''
def going(n):
s = 1.0
for i in range(2, n + 1):
s = s/i + 1
return int(s * 1e6) / 1e6
'''
len_t =int(log10(n))+2
for i in range(2,len_t) :
num_temp = num_list[len_t-1-i:]
temp=next_bigger_t(num_temp)
if temp!= -1:
return n //10**i * 10**i +temp
else :
pass
return -1
if __name__ == "__main__":
t0 = time.perf_counter()
Test.assert_equals(next_bigger(12),21)
Test.assert_equals(next_bigger(513),531)
Test.assert_equals(next_bigger(2017),2071)
Test.assert_equals(next_bigger(414),441)
Test.assert_equals(next_bigger(144),414)
Test.assert_equals(next_bigger(54864190394230),54864190394302)
Test.assert_equals(next_bigger(6119200482),6119200824)
Test.assert_equals(next_bigger(996540),-1)
Test.assert_equals(next_bigger(9545044),9545404)
Test.assert_equals(next_bigger(6877),7678)
Test.assert_equals(next_bigger(560086),560608)
print(time.perf_counter() - t0)
'''
import itertools
for i in range(1, len_t):
for j in range(1, len_t - i + 1):
slice_temp = int(string[i:i + j] + string[:i])
find_first = slice_temp
pos = find_position_from_n(string, find_first)
if pos != -1:
out_temp.append(pos + find_pos_for_n(find_first))
else:
pass
return min(out_temp)
if __name__ == "__main__":
t0 = time.perf_counter()
test.assert_equals(find_position("456"), 3, "...3456...")
test.assert_equals(find_position("454"), 79, "...444546...")
test.assert_equals(find_position("455"), 98, "...545556...")
test.assert_equals(find_position("001"), 190, "...100101...")
test.assert_equals(find_position("00"), 190, "...100101...")
test.assert_equals(find_position("99"), 168)
test.assert_equals(find_position("091"), 170)
test.assert_equals(find_position("0910"), 2927)
# test.assert_equals(find_position("555899959741198") ,1686722738828503)
test.assert_equals(find_position("09991"), 35286)
test.assert_equals(find_position("99940"), 14886)
test.assert_equals(find_position("995"), 1387)
test.assert_equals(find_position("58257860625"), 24674951477)
print(time.perf_counter() - t0)
'''
out_temp += right_rest
left_t = 1
right_t = right & (int(pow(2, right_log2)) - 1)
out_temp += countOnes(left_t, right_t)
else:
pass
return out_temp
if __name__ == "__main__":
t0 = time.perf_counter()
test.describe("Sample Tests")
test.it('Easy')
test.assert_equals(countOnes(5, 7), 7)
test.assert_equals(countOnes(4, 7), 8)
test.assert_equals(countOnes(12, 29), 51)
test.assert_equals(countOnes(12, 2900000000000000), 51) #test time
print(time.perf_counter() - t0)
'''
import math
def count(n):
if n is 0: return 0
x = int(math.log(n, 2))
return x * 2 ** (x - 1) + n - 2 ** x + 1 + count(n - 2 ** x)
#from math import *;circleIntersection=lambda a,b,r:int([r*r*(i-sin(i))for i in[2*acos(min(sqrt((a[0]-b[0])**2+(a[1]-b[1])**2)/2/r,1))]][0])
#from math import *;circleIntersection=lambda a,b,r:int([2*r*r*acos(i/r)-2*i*sqrt(r*r-i*i)if i<r else 0 for i in[sqrt((a[0]-b[0])**2+(a[1]-b[1])**2)/2]][0])
#code length is 130
from math import *
circleIntersection = lambda a, b, r: int([
r * r * (i - sin(i))
for i in [2 * acos(min(hypot(a[0] - b[0], a[1] - b[1]) / 2 / r, 1))]
][0])
if __name__ == "__main__":
t0 = time.time()
test.assert_equals(circleIntersection([0, 0], [7, 0], 5), 14)
test.assert_equals(circleIntersection([0, 0], [0, 10], 10), 122)
test.assert_equals(circleIntersection([5, 6], [5, 6], 3), 28)
test.assert_equals(circleIntersection([-5, 0], [5, 0], 3), 0)
test.assert_equals(circleIntersection([10, 20], [-5, -15], 20), 15)
test.assert_equals(circleIntersection([-7, 13], [-25, -5], 17), 132)
test.assert_equals(circleIntersection([-20, -4], [-40, 29], 7), 0)
test.assert_equals(circleIntersection([38, -18], [46, -29], 10), 64)
remainder_temp = remainder_temp_t
return refer_temp
if __name__ == "__main__":
t0 = time.perf_counter()
test.it('Basic tests')
test_data = [([], 1), ([0, 0], 1), ([0, 0, 0], 0), ([1, 2], 1),
([3, 4, 5], 1), ([4, 3, 6], 4), ([7, 6, 21], 1),
([12, 30, 21], 6), ([2, 2, 2, 0], 4),
([937640, 767456, 981242], 0), ([123232, 694022, 140249], 6),
([499942, 898102, 846073], 6)]
for test_input, test_output in test_data:
test.assert_equals(last_digit(test_input), test_output)
print(time.perf_counter() - t0)
'''
def last_digit(lst):
if not lst:
return 1
else:
out = 1
for n in lst[len(lst):0:-1]:
out = n**out
if out > 2:
out -= 2
out %= 4
out += 2
return lst[0]**out% 10
print("temp" + str(flag) + ":" + str(out))
def duplicate_count(text):
# Your code goes here
out_temp = 0
count_t = [0] * 128
for temp in text:
if ord(temp) >= ord('a') :
count_t[ord(temp)-32] += 1
else:
count_t[ord(temp)] += 1
for i in count_t:
if i > 1:
out_temp += 1
return out_temp
if __name__ == "__main__":
test.assert_equals(duplicate_count("abcde"), 0)
test.assert_equals(duplicate_count("abcdea"), 1)
test.assert_equals(duplicate_count("indivisibility"), 1)
test.assert_equals(duplicate_count("aabBcde"), 2)
test.assert_equals(duplicate_count("aA11"), 2)
'''
def duplicate_count(s):
return len([c for c in set(s.lower()) if s.lower().count(c)>1])
'''
def last_digit(n1, n2):
out_temp=n1%10
if n2==0:
out_temp=1
else :
refer_temp=refer[out_temp]
out_temp=refer_temp[(n2%len(refer_temp))-1]
return out_temp
if __name__ == "__main__":
t0 = time.perf_counter()
Test.it("Example tests")
Test.assert_equals(last_digit(4, 1), 4)
Test.assert_equals(last_digit(4, 2), 6)
Test.assert_equals(last_digit(9, 7), 9)
Test.assert_equals(last_digit(10, 10 ** 10), 0)
Test.assert_equals(last_digit(2 ** 200, 2 ** 300), 6)
Test.assert_equals(last_digit(3715290469715693021198967285016729344580685479654510946723, 68819615221552997273737174557165657483427362207517952651), 7)
Test.it("x ** 0")
for nmbr in range(1, 9):
a = nmbr ** nmbr
Test.it("Testing %d and %d" % (a, 0))
Test.assert_equals(last_digit(a, 0), 1, "x ** 0 must return 1")
print(time.perf_counter() - t0)