Although you've subsquently said that you actually have a `double`

available to store the information, I thought I might still share some thoughts on doing this with a 32 bit integer.

Firstly, in order to have these numbers sort in score order first and time order second, you want the score to occupy the higher value places and the timestamp to occupy the lower. To place the score in the higher value places, we must pick a multiply it by some constant factor. The largest number that can be represented by an unsigned 32 bit integer is 4,294,967,295 , and we we have a score range of 0 to 1,000,000. This gives us a multiplier of 4,294.

We then have the lower-value positions occupied by the timestamp - just need to add that in. This gives us:

```
N = SCORE * 4294 + TIMESTAMP;
```

The reverse conversions are:

```
SCORE = N / 4294;
TIMESTAMP = N % 4294;
```

However, note that the range this allows for the `TIMESTAMP`

is 0 to 4293 inclusive. Anything higher would overflow into the parts of `N`

occupied by the `SCORE`

. If `TIMESTAMP`

is simply a number of seconds (starting at 4293 for the earliest score and counting down), this only gives us a maximum time of just over 71 minutes from the earliest score to the latest - probably insufficient.

This is simply a limit on the number of different buckets you can represent with a 32 bit integer - to be able to represent more distinct timestamps with this model, you need to reduce the number of distinct scores you can represent.

However, note that we don't really want the timestamp as a timestamp - we just want it as a monotonic ordering on the scores. As an alternative, we can keep a counter. Initialise the counter to 4293. When a new score comes in, store it with the current value of the counter as its "timestamp", then decrement the counter. This will allow 4294 distinct highscores to be stored before the counter runs out.

As a further refinement, we can note that we only care about the ordering *within the same *`SCORE`

value. This suggests another alternative: when a new high score comes in, find the current lowest TIMESTAMP value for that score. Decrement it by 1, and use that for the "timestamp" of the new score (if this is the first time that this `SCORE`

has been submitted, use 4293 as the timestamp). This will allow 4294 high scores per individual score value.