Given a pseudorandom number generator `int64 rand64()`

, I would like to build a set of pseudo random numbers. This set should have the property that the XOR combinations of each subset should not result in the value 0.

I'm thinking of following algorithm:

```
count = 0
set = {}
while (count < desiredSetSize)
set[count] = rand64()
if propertyIsNotFullfilled(set[0] to set[count])
continue
count = count + 1
```

The question is: How can `propertyIsNotFullfilled`

be implemented?

**Notes:** The reason why I like to generate such a set is following: I have a hash table where the hash values are generated via Zobrist hashing. Instead of keeping a boolean value to each hash table entry indicating if the entry is filled, I thought the hash value – which is stored with each entry – is sufficient for this information (0 ... empty, != 0 ... set). There is another reason to carry this information as sentinel value inside the hash-key-table. I'm trying to switch from a AoS (Array of Structure) to a SoA (Structure of Array) memory layout. I'm trying this to avoid padding and to test if there are lesser cache misses. I hope in most cases the access to the hash-key-table is enough (implied that the hash value provides the information if the entry is empty or not).

I also thought about reserving the most significant bit of the hash values for this information but this would reduce the area of possible hash values more than it is necessary. Theoretically the area would be reduced from 2^{64} (minus the seninal 0-value) to 2^{63}.

One can read the question in the other way: Given a set of 84 pseudorandom numbers, is there any number which can't be generated by XORing any subset of this set, and how to get it? This number can be used as sentinel value.

Now, for what I need it: I have developed a connect four game engine. There are 6 x 7 moves possible for player A and also for player B. Thus there are 84 possible moves (therefore 84 random values needed). The hash value of a board-state is generated by the precalculated random values in the following manner: `hash(board) = randomset[move1] XOR randomset[move2] XOR randomset[move3] ...`

`int64`

Array with hash-values and a`allOtherInfo`

Array with the rest. It would be nice if the`int64`

array contains the information, if the entry is empty. Therefore my question. – Christian Ammer Mar 5 '12 at 12:40`hash(state) == zero`

for all valid states, and use hash==zero as a sentinel value for "invalid": it is generally easier to just spend one extra bit to signify the "is_valid" condition. In some games (go) an empty board (mostly) has a hashvalue of zero, but is a perfectly legal board state. Disallowing a zero hashvalue will cost an awfull amount of corner-case code. Storing one extra "valid" bit in the table is cheaper and cleaner. How big is your "payload" anyway? – wildplasser Mar 5 '12 at 14:55enumerateall the valid board positions. BTW: you should not hash moves, but positions. Adding a move is equivalent to HASH(new_position) = HASH(previous_position) @@ hash(added_stone), with @@ some operator, probably xor. BTW2 if passing is not allowed the number of reachable positions is even smaller. – wildplasser Mar 5 '12 at 22:08