Suppose we have two longs, x and y. What operator or function involving x and y would produce another long, z, which is least likely to be equal to the result of applying the same operator or function to different of x's and y's?
Ex: Addition would be a poor choice. 1+4=5, but 2+3 also equals 5.
EDIT: Let me explain why I'm asking this question. I'm creating a space rpg game. The game's environment (solarsystems) will be procedurally generated from two seeds. These seeds consist of the x and y coordinates of the system in the universe. So there is a good probability that the player might encounter the systems at (500,501) and (501,500) over the course of his adventures. I need a way to these the solar systems generated unique. But also, I want to make sure that as many coordinate pairs as possible will produce unique seeds.
EDIT 2: I tested two of the solutions given to me. Accipitridae's answer was far superior to Artelius's answer. Here's the code to test the solutions:
HashSet<Long> set = new HashSet<Long>(); for(int x=0; x<1000; x++) for(int y=0; y<1000; y++) //I commented out one of the solutions at a time set.add((long)(((x&0x7FFFFFFF) << 33) | ((y&0x7FFFFFFF) << 2) | ((x>>>62) & 2) | (y>>>63)));//Artelius set.add((long)(x - y * 7046029254386353131l));//Accipitridae System.out.println(set.size());
From the size of the HashSet, I could tell how many unique seeds were generated through each method. For these parameters, Artelius's solution generated 2048 unique longs, while Accipitridae's generated 1000000, meaning that there were no collisions at all.
Thank you all for you effort in trying to solve this problem. :)