An application I'm working on requires a matrix of random numbers. The matrix can grow in any direction at any time, and isn't always full. (I'll probably end up re-implementing it with a quad tree or something else, rather than a matrix with a lot of null objects.)
I need a way to generate the same matrix, given the same seed, no matter in which order I calculate the matrix.
LazyRandomMatrix rndMtx1 = new LazyRandomMatrix(1234) // Seed new object float X = rndMtx1[0,0] // Lazily generate random numbers on demand float Y = rndMtx1[3,16] float Z = rndMtx1[23,-5] Debug.Assert(X == rndMtx1[0,0]) Debug.Assert(Y == rndMtx1[3,16]) Debug.Assert(Z == rndMtx1[23,-5]) LazyRandomMatrix rndMtx2 = new LazyRandomMatrix(1234) // Seed second object Debug.Assert(Y == rndMtx2[3,16]) // Lazily generate the same random numbers Debug.Assert(Z == rndMtx2[23,-5]) // on demand in a different order Debug.Assert(X == rndMtx2[0,0])
Yes, if I knew the dimensions of the array, the best way would be to generate the entire array, and just return values, but they need to be generated independently and on demand.
My first idea was to initialize a new random number generator for each call to a new coordinate, seeding it with some hash of the overall matrix's seed and the coordinates used in calling, but this seems like a terrible hack, as it would require creating a ton of new