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Is there any fast way in C (below 1 sec) to find the number of perfect squares between two numbers. For ex. for 1 <-> 10 we have 2 perfect squares 4 and 9. But what about between 1<->2^60 or some other bigger number.

This is slow

    sum+=i==((long long)(sqrt(i*i)));

where n is lets say 2^60 and we start with i=2.

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below 1 sec 1 second on what, a 486 or a GeForce 560? –  ta.speot.is Jan 19 '12 at 23:32
Why, 2^30 - 1? Can you compute sqrt of the endpoints and find how many integer numbers are in that range? –  Dmitry Shkuropatsky Jan 19 '12 at 23:35

2 Answers 2

up vote 30 down vote accepted
x = (int)sqrt(n2) - (int)sqrt(n1);
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Just fix indexing to get my vote up: There is 1 perfect square in [9,10] –  amit Jan 19 '12 at 23:38
@amit: By his example (1 <-> 10 having 2), the lower end is exclusive. –  Benjamin Lindley Jan 19 '12 at 23:41
true. +1 it is then. –  amit Jan 19 '12 at 23:42
@Benjamin Lindley: I guess the higher end is also exclusive (for the symmetry). Right? Then it is x = (int)sqrt(n2-1) - (int)sqrt(n1); It's a pity that example 1<-->10 doesn't reveal that but it seems natural. –  Serge Dundich Jan 20 '12 at 8:07
Where did you bring this formula Benjamin? –  Grijesh Chauhan May 17 '13 at 4:16

Its trivial. Assume you have two endpoints, a & b, with a < b.

  1. What is the next perfect square after a? Hint, what is sqrt(a)? What would rounding up do?

  2. What is the largest perfect square that does not exceed b? Hint, what is sqrt(b)? Again, how would rounding help here?

Once you know those two numbers, counting the number of perfect squares seems truly trivial.

By the way, be careful. Even the sqrt of 2^60 is a big number, although it will fit into a double. The problem is that 2^60 is too large to fit into a standard double, since it exceeds 2^53. So beware precision issues.

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+ nice trick, Thanks! –  Grijesh Chauhan May 17 '13 at 4:22

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