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

http://en.wikipedia.org/wiki/Integer_square_root

in C# as

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

?

2

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

http://en.wikipedia.org/wiki/Integer_square_root

in C# as

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

?

3

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);
index.Sort();
// 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]]);
}
else
{
Console.WriteLine(lookup[foundIndex]);
}
// yields 5
```

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

extremelycritical code, performance-wise, I wouldn't bother. – Rik May 15 '14 at 9:50`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