const HomeText = (props) => (
<Typography
variant='h1'
component="h2"
sx={{
color: "white",
fontWeight: "bolder",
maxWidth: {
xs: "95%", // для мобильных
sm: "85%", // для планшетов
md: "80%" // для десктопов
},
wordWrap: "break-word"
}}
>
{props.children}
</Typography>
)
def isPrime(n):
# Corner case
if (n <= 1):
return False
# Check from 2 to sqrt(n)
for i in range(2, int(n**.5)+1):
if (n % i == 0):
return False
return True
def gap(distance, range_lower, range_upper):
worked_area = list(range(range_lower,range_upper+1))
find_primes = [el for el in worked_area if isPrime(el)]
if len(find_primes) == 0:
return []
for i in range(1, len(find_primes)):
if find_primes[i] - find_primes[i-1] == distance:
return [find_primes[i-1], find_primes[i]]
return []def isPrime(n):
# Corner case
if (n <= 1):
return False
# Check from 2 to sqrt(n)
for i in range(2, int(n**.5)+1):
if (n % i == 0):
return False
return True
def gap(g, m, n):
start = 0
end = 0
for i in range(m,n+1):
if isPrime(i):
if start == 0:
start = i
elif end == 0:
end = i
else:
start = end
end = i
if end - start == g:
return [start, end]
return None
def simple_numbers(m, n):
for i in range(m, n):
for j in range(2, i):
if i % j == 0:
break
else:
yield i
def test(g, m, n):
lst = []
for i in simple_numbers(m, n):
lst.append(i)
if len(lst)>1:
if abs(lst[-1] - lst[-2]) == g:
return [lst[-1], lst[-2]]
return False
g = 6
m = 2
n = 1100000
rez = test(g, m, n)
if rez:
print("{} - {} = {}".format(rez[0], rez[1], g))
else:
print("No")
