+ 2
Cake Challenge!
I wrote a little program which give me the number of pieces that can be obtained at most from a cake, making no more than N cuts. #include <iostream> #include <math.h> int main() { long long N; long long C; std::cin >> N; if(N < 0){ C = ((long long)(abs(N)/2 - 1) * (abs(N)/2 - 1)); } else if (N%2==0){ C = ((long long)(N/2 + 1) * (N/2 + 1)); } else if(N == 0){ C = 1; } else if(N % 2 != 0){ C = ((long long)(floor(N / 2) + 2) * (floor(N / 2) + 1)); } std::cout << C << std::endl; return 0; } It give me the correct answer except for 1 N which is? P.S. 0 <= N <= 1 000 000 000.
5 Answers
+ 1
The pieces are equal size and each cut is made either vertically or horizontally, for the whole length of the cake.
+ 7
What are the assumptions. Are the pieces equal in size, i.e. all cuts go through the centre?
+ 1
I'd love to hear your definition of a negativ cut. But getting 0 pieces of cake without cutting at all is quite odd ;)
+ 1
đ€
A complex piece of cake is a piece of cake that can be expressed in the form a + bi, where a and b are real pieces of cake, and i is a solution of the equation (cutÂČ = â1), which is called an imaginary piece of cake because there is no real number that satisfies this equation.
According to the fundamental theorem of delicous food, all desserts with real or complex cuts have a solution in complex pieces of cake.
Not that hard @merlin đ
+ 1
this is my code in python:
carrots = int(input())
boxes = int(input())
rem = carrots % boxes
if rem >= 7:
print("Cake Time")
else:
print("I need to buy " + str(7 - rem) + " more")