Loop taking exceptionally long time to execute

I'm attempting to construct a Sieve of Atkin which includes the following segments of code. I've found that the section entitled `Determine candidate primes` is taking hours to cycle through all iterations, which I've been told is way too long for the problem I'm trying to solve. I've tested the complete program using a small value of `limit`, and it does indeed return the expected answer, so I know the program is at least functional, but I can't see any way of optimising the loop to run faster. Can anyone else see what's causing the bottleneck?

``````int main () {
signed long long int limit = 600851475143;
int sqrtLimit = ceil(sqrt (limit));
vector<bool> isPrime (limit + 1, false);

// Determine candidate primes
for (int x = 1; x <= sqrtLimit; x ++) {
cout << x << " ";
for (int y = 1; y <= sqrtLimit; y ++) {
int n = (4 * x * x) + (y * y);
if ((n <= limit) && (n % 12 == 1 || n % 12 == 5))   flipPrime (isPrime, n);

n = 3 * x * x + y * y;
if ((n <= limit) && (n % 12 == 7)) flipPrime (isPrime, n);

if (x > y) {
n = 3 * x * x - y * y;
if ((n <= limit) && (n % 12 == 11)) flipPrime (isPrime, n);
}
}
}
}

void flipPrime (vector<bool>& isPrime, int prime)
{
if (isPrime[prime]) !isPrime[prime];
else isPrime[prime] = true;
}
``````
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what the function flipPrime is supposed to do? –  hexa Aug 23 '11 at 12:36
Doesn't this question belong to code review site ? –  iammilind Aug 23 '11 at 12:37
`limit` will consume 69 gigs of memory, see my answer –  Andreas Brinck Aug 23 '11 at 12:47
well, instead of a function a simple `isPrime[prime] = !isPrime[prime]` should do then. The way it is now, it's bugged and is only inverting if the argument is `false`. –  hexa Aug 23 '11 at 12:51
I meant that `isPrime` consumes 69 gigs. –  Andreas Brinck Aug 23 '11 at 12:54
show 1 more comment

The inner loop is approximately executed `600851475143` times, how could that not take considerable time?

EDIT: Also `isPrime` will consume a whopping 69 Gb of memory (600851475143 / (1024 * 1024 * 1024 * 8)) so you'll be swapping of disk all the time.

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no its not, its executed the sqrt of that. –  hexa Aug 23 '11 at 12:40
@hexa: no, since each of the loops is run sqrt times, so you need to look at the multiplication, and sqrt*sqrt = limit. –  Eran Zimmerman Aug 23 '11 at 12:43
@hexa Check again it's a nested for loop both with range `sqrt(limit)` => `sqrt(limit) * sqrt(limit) ~= limit` iterations –  Andreas Brinck Aug 23 '11 at 12:43
Indeed, my bad. –  hexa Aug 23 '11 at 12:43
The disk swapping is almost certainly the problem. I'm surprised the OS was even willing to give up that much memory. –  Mark B Aug 23 '11 at 13:29

Well some basic hints :

• do not use cout if not necessary.
• multiplication costs a lot. avoid unnecessary ones. For example use variables to store x*x, 4*x*x and 3*x*x outside of the y for loop. x*x is constant in the y for loop :) You even do 3*x*x 2 times in the y loop :)
• Store y*y in a variable too. Do not calculate it more than one time :)
• simplify flipPrime : just use isPrime[prime] = !isPrime[prime] without function call and if / else

A lot more to be said. But try to do simple things first :) Then you can begin to read advanced article about loop unrolling and the rest.

EDIT:

As said in some comments, your compiler should optimize out some or all things I have pointed out. One can even argues that doing too many specific optimizations can be counter produtive as it might impair the compiler optimization capabilities.

So one basic advice : - mesure the perfs of your initial algorithm - do one possible optimization - mesure the gain

This way you will learn a lot about your compiler automatic optimization :)

EDIT 2:

As said in comments, my ubuntu 64bit with 4Gbytes RAM refuse to allocate the vector :) With a more reasonable billion limit, time give about 14 seconds. removing cout just gain about a second.

As andreas said, the problem is the storage of the result. you have to store the inner loop result on disk !

my 2 cents

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@Chris: wow, I totally missed the cout. Comment it out, and your code should run considerably faster. –  Eran Zimmerman Aug 23 '11 at 12:48
@Eran The inner loop is executed > 700.000 times for each `cout` so it will not make any difference at all –  Andreas Brinck Aug 23 '11 at 12:50
The other optimisations are all things the compiler should be doing anyway (once `flipPrime` is fixed to have the correct behaviour). The main performance issues are that the inner loop executes about 600 billion times, and `isPrime` will be swapped out to disk (unless you have an exceptional amount of memory) - neither of these can be solved by micro-optimising. –  Mike Seymour Aug 23 '11 at 13:10
@mike : yes, you are probably right. My point is that when you should understand basic optimization like not doing a calculation when unnecessary before beginning to read more advanced topics. I will amend my answer ... –  neuro Aug 23 '11 at 13:28

Some optimisations

• Since x*x is not changed inside the inner loop, calculate it in the outside loop
• Cache the result of y*y

``````for (int x = 1; x <= sqrtLimit; x ++) {
cout << x << " ";
int x4 = 4 * x * x;
int x3 = 3 * x * x;
for (int y = 1; y <= sqrtLimit; y ++) {
int y2 = y * y;
int n = x4 + y2;
if ((n <= limit) && (n % 12 == 1 || n % 12 == 5))   flipPrime (isPrime, n);

n = x3 + y2;
if ((n <= limit) && (n % 12 == 7)) flipPrime (isPrime, n);

if (x > y) {
n = x3 - y2;
if ((n <= limit) && (n % 12 == 11)) flipPrime (isPrime, n);
}
``````

`if (isPrime[prime]) !isPrime[prime];`

is this line of code doing something? Or it has to be isPrime[prime] = !isPrime[prime] ?

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That "optimization" is a micro-optimizations at best. I'd expect every single compiler's loop invariant code motion pass to do that for you. And even if it made a difference, changes like don't make runtime explode. –  delnan Aug 23 '11 at 12:38
@Chris: I would also substitute `4*` with `<<2`, and if `(n <= limit)` is usually true - flip the order of the conditions (due to lazy evaluation), e.g. `if ((n % 12 == 7) && (n <= limit))` –  Eran Zimmerman Aug 23 '11 at 12:38
@delnan: You'd be surprised, I've encountered cases where such simple "micro-optimizations" cut the run-time by half, and more, and even solved bottlenecks! –  Eran Zimmerman Aug 23 '11 at 12:44
Since `limit` consumes 69 Gb of memory any optimization will be drowned by the latency of disk access. –  Andreas Brinck Aug 23 '11 at 12:48
@Eran: There are "micro"-optimizations that can have a great impact, true. But with modern compilers, these have to be much more clever (e.g. exploiting CPU specifics) than simply moving an integer multiplication out of a loop. Also compare the cost of to the cost of two or the calculations that are saved this way to the cost of the other actions in the loop - there are multiple conditional jumps, multiple modulus operations (not by powers of two, i.e. not a simple bitmask), multiple comparisions, etc.). –  delnan Aug 23 '11 at 12:48
show 1 more comment

I assume this is Project Euler problem #3. It can be solved with a naive factorization loop in the blink of an eye. The following function only takes ~5ms on my machine.

``````void Problem3(uint64_t N) // 600851475143
{
uint64_t factor = N;

while (factor % 2 == 0 && factor != 2) factor /= 2; // special case 2

for (uint64_t i = 3; i * i <= factor; i += 2)
{
while (factor % i == 0 && factor != i) factor /= i;
}
std::cout << "3. largest(" << N << ")=" << factor << '\n';
}
``````
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Yes, the largest prime factor of that number is tiny! No point in finding enormous primes. - But then again, it is not at all nice to give out full solutions for a contest puzzle. Couldn't you have posted a comment that the OP is looking in the wrong direction? - Anyway, an even faster way to get the solution is wolframalpha.com/input/?i=factorize+600851475143 –  UncleBens Aug 23 '11 at 15:43