I'm not quite sure what evenCount is meant to do as it is. Edit: see below.
From your description of the problem, it seems like you could just do:
int isEven(unsigned int number)
{
return !(number%2);
}
int main()
{
unsigned int first = 1, second = 1, next, sum = 0;
//we already have the first two numbers so start at 2
for(count = 2; count < MAX; count++)
{
next = first+second;
first = second;
second = next;
//we know the starting values are odd (1 & 1) and won't need to be summed so we can test the new value -
if (isEven(second)) //if even (no remainder when dividing by 2)
{ sum+=first;}
}
printf("Final even sum is: %f\n", sum);
}
Note, there is no need for double
here (yet). The sum (at n=20) is still far too low to exceed what int
can store. (although at this point it is growing quickly)
As for your actual questions:
note: when you don't need a pointer, it is recommended that you don't use one, as all you are going to do is make the code more complex than needed
Do I need a second double pointer in evenCount to pass the final value?
If the function is meant to keep track of the sum, then I'd do it like this:
unsigned int evenSum(unsigned int num = 0)
{
static unsigned int sum = 0; //initialised on first use of function. Value is retained between function calls.
//we test for even here - no longer need to test in calling code
// - making the algorithm simpler
if (isEven(num))
sum += num;
return sum;
}
which can then be called like this:
//adding values:
evenSum( new_value );
//retrieving sum
sum = evenSum();
//or do both:
sum = evenSum( new_value );
If you wanted to store the sum 'locally' though (i.e. as a variable in main, but modify it in the evenSum()
function), then yes, you would then need to pass it into the funtion too as a pointer:
void evenSum(unsigned int num, unsigned int * sum)
{
if (isEven(num))
*sum += num;
}
It would be called like this:
sum = 0;
num = 56;
evenSum(num, &sum); //sum is now sum+num
As you pass the address of sum
in, when the function de-references it, it modifies the value and not a copy. The number passed in does not need to be passed in as a pointer as it is a (forgetting correct word here, but it means 'basic') type, and passing it by value is actually slightly more efficient as at runtime it can just be loaded into a register, and doesn't rely on memory lookup. Plus, it is easier to read.
Does main() need a pointer so that pointer can reference evenCount pointer?
To be honest, I'm not 100% sure what you are asking here.
If you are asking:
Do I need to store a pointer to the sum in main()
to pass into the evenSum()
function?
then no.
You can pass a pointer to a 'thing' using the "address of" operator &
. I've used it above in the second calling example in the above answer:
unsigned int * sum_pointer = ∑// <--- not needed
evenSum(num, &sum); //sum is now sum+num
^
This passes a pointer to sum
Edit: looking at your code again, is evenCount meant to find the next fibonachi number?
If so, you could do:
void next_fib(unsigned int *previous, unsigned int *current)
{
unsigned int next = *previous+*current;
*previous = *current;
*current = next;
}
And you would call this like so:
unsigned int val1 = 1, val2 = 1;
next_fib(&val1, &val2); //val2 is now the 3rd fib. #
next_fib(&val1, &val2); //val2 is now the 4th fib. #
To add this to my code from above, the program becomes:
int isEven(double number)
{
return !(number%2);
}
unsigned int evenSum(double num = 0)
{
static double sum = 0;
//we test for even here - no longer need to test in calling code
// - making the algorithm simpler
if (isEven(num))
sum += num;
return sum;
}
void next_fib(unsigned int *previous, unsigned int *current)
{
unsigned int next = *previous+*current;
*previous = *current;
*current = next;
}
int main()
{
unsigned int first = 1, second = 1;
//we already have the first two numbers so start at 2
for(count = 2; count < MAX; count++)
{
next_fib(&first, &second);
evenSum(second);
}
printf("Final even sum is: %f\n", evenSum());
}
Edit 2:
After reading your edit and some of your comments, and then taking a look at the actual task, you have interpreted the question incorrectly.
The question asks for the sum of all even numbers in the fibbonachi sequence, where the number is less than 4x106. This is thankfully easier and quicker to do than the sum of all the even Fibonacci numbers up to the 4x106th.
Obviously, we need to change the algorithm. Luckily, we split the main bits into functions already, so it's pretty simple, mainly just a change in the loops, though I made a couple more changes too:
bool isEven(unsigned long number)
{
return !(number%2);
}
void next_even_fib(unsigned long *previous, unsigned long *current)
{
do
{
unsigned int next = *previous+*current;
*previous = *current;
*current = next;
} while (!isEven( *current));
//we could just do 3 passes here without needing the isEven() function
//as the Fibonacci sequence is always O,O,E,O,O,E...
//but this is a more general form
}
int main()
{
//as there is less constraint on knowing which term we are on, we can skip straight to the first even number.
unsigned long first = 1, second = 2;
unsigned long sum = 0;
do
{
//with the sum calculation first, we can break out of the loop before the sum
//we've changed the algorithm so when we get here, second is always even
sum += second;
next_even_fib(&first, &second);
} while (second < 4000000);
printf("Final even sum is: %d\n", sum);
}
Note that I changed the types to unsigned long
. This is still an integer value, but one that is guaranteed to be long
( :-P ) enough to store the numbers we need.