show/hide this revision's text 2 Added mdashes for easier parsing.

You don't even need an array to solve this one.

You need a bitmask and a counter.

Initialize the counter to zero and increment it on successive calls. XOR the counter with the bitmask (randomly selected at startup, or fixed) to generate a psuedorandom number. If you can't have numbers that exceed 1000, don't use a bitmask wider than 9 bits. (In other words, the bitmask is an integer not above 511.)

Make sure that when the counter passes 1000, you reset it to zero. At this time you can select another random bitmask if you like to produce the same set of numbers in a different order.
show/hide this revision's text 1

You don't even need an array to solve this one.

You need a bitmask and a counter.

Initialize the counter to zero and increment it on successive calls. XOR the counter with the bitmask (randomly selected at startup, or fixed) to generate a psuedorandom number. If you can't have numbers that exceed 1000, don't use a bitmask wider than 9 bits. (In other words, the bitmask is an integer not above 511.)

Make sure that when the counter passes 1000, you reset it to zero. At this time you can select another random bitmask if you like to produce the same set of numbers in a different order.