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f.cpp
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#include <iostream>
#include <cassert>
// The following code calls a naive algorithm for computing a Fibonacci number.
//
// What to do:
// 1. Compile the following code and run it on an input "40" to check that it is slow.
// You may also want to submit it to the grader to ensure that it gets the "time limit exceeded" message.
// 2. Implement the fibonacci_fast procedure.
// 3. Remove the line that prints the result of the naive algorithm, comment the lines reading the input,
// uncomment the line with a call to test_solution, compile the program, and run it.
// This will ensure that your efficient algorithm returns the same as the naive one for small values of n.
// 4. If test_solution() reveals a bug in your implementation, debug it, fix it, and repeat step 3.
// 5. Remove the call to test_solution, uncomment the line with a call to fibonacci_fast (and the lines reading the input),
// and submit it to the grader.
int fibonacci_naive(int n) {
if (n <= 1)
return n;
return fibonacci_naive(n - 1) + fibonacci_naive(n - 2);
}
int fibonacci_fast(int n) {
// write your code here
return 0;
}
void test_solution() {
assert(fibonacci_fast(3) == 2);
assert(fibonacci_fast(10) == 55);
for (int n = 0; n < 20; ++n)
assert(fibonacci_fast(n) == fibonacci_naive(n));
}
int main() {
int n = 0;
//std::cin >> n;
// std::cout << fibonacci_naive(n) << '\n';
test_solution();
// std::cout << fibonacci_fast(n) << '\n';
return 0;
}