M__
Posted on June 27, 2020
Yesterday’s challenge was about exceptions and today was a continuation on that topic but on a different aspect; raising an Exception.
Raising an exception is when one forces an exception to occur, it’s identified by the keyword raise followed by an exception instance or exception class then add a message to be displayed when the exception occurs. E.g. raise Exception(‘my message here’)
The Task:
Write a Calculator class with a single method: int power(int,int). The power method takes two integers, n and p, as parameters and returns the integer result of n^p. If either n or p is negative, then the method must throw an exception with the message: n and p should be non-negative.
class Calculator:
def power(self,n,p):
#check if either n or p is negative
if n < 0 or p < 0:
#raising the exception if either of the values is negative
raise Exception('n and p should be non-negative')
else:
# returning the value of n to the power of p
return n ** p
cl1 = Calculator()
T = int(input()) #number of test cases to be input
#looping though every test case
for i in range(T):
#create two variables as the input is space-separated
n, p = map(int, input().split())
try:
ans = cl1.power(n,p)
print(ans)
except Exception as e:
print(e)
'''
Sample Input
4
3 5
2 4
-1 -2
-1 3
Sample Output
243
16
n and p should be non-negative
n and p should be non-negative
'''
Posted on June 27, 2020
Join Our Newsletter. No Spam, Only the good stuff.
Sign up to receive the latest update from our blog.