Is there any faster or more direct way of computing the integer square root:


in C# as

private long LongSqrt(long value)
    return Convert.ToInt64(Math.Sqrt(value));


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    @qqbenq If I understand the source correctly, it is fast approximate way of calculating a floating point square root. My question was more like: Can I save time by avoiding the conversion long -> double -> long? – JF Meier May 15 '14 at 7:53
  • The conversions happen only once, while the sqrt algorithm is iterative. Unless this is extremely critical code, performance-wise, I wouldn't bother. – Rik May 15 '14 at 9:50
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    Also, "integer square root" usually refers to "the integer value of the actual square root" i.e rounded down. So I would suggest you consider using Math.Floor. In your current code Math.Round is redundant, because it's already being done in Convert.ToInt64. – Rik May 15 '14 at 10:02

If you know the range in advance you can create a lookup index for a squared value and its integer square root.

Here is some simple code:

// populate the lookup cache
var lookup = new Dictionary<long, long>();
for (int i = 0; i < 20000; i++)
    lookup[i * i] = i;

// build a sorted index
var index = new List<long>(lookup.Keys);

// search for a sample 27 
var foundIndex = index.BinarySearch(27);
if (foundIndex < 0)
    // if there was no direct hit, lookup the smaller value
    // TODO please check for out of bounds that might happen
    Console.WriteLine(lookup[index[~foundIndex - 1]]);

// yields 5

You can get around the dictionary lookup by creating a parallel second list, if you want it to be more efficient.

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