I was solving Euler problem no. 10 that asks to find sum of all primes below 2million. I am getting different results on using sqrt and pow functions. Using sqrt gives the correct answer, plus using pow function takes more time. Here is my code.

std::cout << "\nSum = " << sum;
  • 3
    How are you using pow? Show us your code. – Djon Jun 2 '13 at 10:09
  • And what is the problem with pow()? – Daniel Fischer Jun 2 '13 at 10:09
  • pow(i,0.5) in place of sqrt(i) And using pow() gives a wrong answer and takes longer time. – Shubham Jun 2 '13 at 10:12
  • Your code is missing two pairs of curly braces and a break statement. pow or sqrt, you get a wrong value either way. – Sergey Kalinichenko Jun 2 '13 at 10:12
  • Also you did not ask anything, what result does each of your program give? – Djon Jun 2 '13 at 10:13

First of all, sqrt(x) should be faster and more accurate than pow(x,0.5), why do you think it's in the library? Second, you're probably getting a wrong answer because your loop termination condition is testing a floating-point number. A tiny round-off somewhere in one of those 2 million loops is probably enough to throw off the total. Finally, you're calculating a floating point sqrt() twice inside each iteration of the loop, which is terribly slow.

Instead of

for (j = 0; j <= sqrt(i); ++j)  . . .


limit = (int)(sqrt(i) + 0.5);
for (j = 0; j <= limit; ++j) . . .
  • Thanks alot sir, your answer was a great help to my concepts :) – Shubham Jun 2 '13 at 10:50

I can not reproduce your problem on my computer, but your testing on double is a very dangerous one. If i is the square of a prime number you are relying on high precision of the sqrt and pow to have the correct result. Maybe on your system there is a slight rounding difference on one or more of such squares. You'd better test j*j <= i and j*j > i.

  • Whoa! that was 8 times faster than using sqrt() and it gave correct answer too. – Shubham Jun 2 '13 at 10:39
  • This isn't entirely true. His use of sqrt is fine; it will return exact results when given square floating-point numbers. – tmyklebu Jun 2 '13 at 10:43
  • @tmyklebu I trust you are correct that sqrt should give precise enough results. I would still discourage people to rely on equality of double types, unless they really know what they are doing. – Bryan Olivier Jun 2 '13 at 10:47
  • @BryanOlivier: I wouldn't. Knowing what you can do with floating-point, when it works, and how to do it is pretty important. You aren't born understanding this stuff; you need to learn it through experience. Project Euler is a pretty good way to get some low-risk experience with your tools. – tmyklebu Jun 2 '13 at 11:05

pow is very difficult to implement correctly --- that is, so that things like pow(x*x, 0.5) returns x for those x where that's the right answer. Very few implementations (CRlibm being a notable exception) implement pow correctly.

sqrt, on the other hand, is guaranteed to be correctly rounded by the IEEE specification, and that's why your code works with sqrt and not with pow.

  • I am sorry your answer is too technical for me to understand. – Shubham Jun 2 '13 at 10:45
  • @sh94: Floating-point numbers are basically numbers in a binary "scientific notation" that have a set precision. (There are a couple of other vagaries, but I'll ignore them.) Basically, all I'm saying is that it's OK to rely on sqrt to do the right thing, but it's not OK to rely on pow to do the right thing. – tmyklebu Jun 2 '13 at 11:07

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