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id, title, challengeType, dashedName
| id | title | challengeType | dashedName |
|---|---|---|---|
| 6821ebc9237de8297eaee78f | Challenge 13: Unnatural Prime | 29 | challenge-13 |
--description--
Given an integer, determine if that number is a prime number or a negative prime number.
- A prime number is a positive integer greater than 1 that is only divisible by 1 and itself.
- A negative prime number is the negative version of a positive prime number.
1and0are not considered prime numbers.
--hints--
is_unnatural_prime(1) should return False.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(1), False)`)
}})
is_unnatural_prime(-1) should return False.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(-1), False)`)
}})
is_unnatural_prime(19) should return True.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(19), True)`)
}})
is_unnatural_prime(-23) should return True.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(-23), True)`)
}})
is_unnatural_prime(0) should return False.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(0), False)`)
}})
is_unnatural_prime(97) should return True.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(97), True)`)
}})
is_unnatural_prime(-61) should return True.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(-61), True)`)
}})
is_unnatural_prime(99) should return False.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(99), False)`)
}})
is_unnatural_prime(-44) should return False.
({test: () => { runPython(`
from unittest import TestCase
TestCase().assertIs(is_unnatural_prime(-44), False)`)
}})
--seed--
--seed-contents--
def is_unnatural_prime(n):
return n
--solutions--
def is_unnatural_prime(n):
abs_n = abs(n)
if abs_n <= 1:
return False
for i in range(2, int(abs_n ** 0.5) + 1):
if abs_n % i == 0:
return False
return True