The fastest way would probably just be to set the first three bits in your long to `0`

and then use those bits to make a double.:

```
double rand = Double.longBitsToDouble(seed & 0x1FFFFFFFFFFFFFFFL);
```

This works by forcing the sign to positive, and exponent to be less than 0, which will cause the mantissa to be shifted right at least once. It gives an even distribution assuming all the ints in the long are completely random. Here is a full Java program that uses Random to generate random longs, and then this method to convert them to double's between 0 and 1:

```
import java.util.Random;
class Main{
public static void main(String[] args){
Random rand = new Random();
long seed = rand.nextLong();
double x = Double.longBitsToDouble(seed & 0x1FFFFFFFFFFFFFFFL);
System.out.println(x);
}
}
```

This is the output of 10 executions:

```
1.1211565592484309E-247
8.84224349357039E-242
6.956043405745214E-271
3.747746366809532E-232
9.302628573486166E-158
1.1440116527034282E-166
1.2574577719255876E-198
5.104999671234867E-269
3.360619724894072E-213
1.5654452507283312E-220
```

**Edit**

This gives a uniform distribution of all possible doubles between 0 and 1. Since there are many more small doubles you will likely never see a number close to 1. You can fix this by generating a new exponent based on the bits of the existing one, but you need a loop to do it, so it probably isn't the fastest method after factoring this in:

```
long exponent = 0;
for(int i = 52; (seed >>> i & 1) > 0; i++) exponent++;
double x = Double.longBitsToDouble(seed & 0x000FFFFFFFFFFFFFL | ((1022 - exponent) << 52));
```

0.4773960377161338

0.929045618651037

0.7183096209363845

0.33962049395497845

0.45568660174922454

0.11670190555677815

0.09371618427480996

0.8192870898479095

0.9365016017283178

0.11311614413193898

`/2`

and fold that into the`seed/xxx`

part – David Heffernan May 7 '12 at 20:01