A full cycle is a mathematical term that represents a traversal over a set of non-random numbers. A full cycle implies that every number in the set was chosen exactly once before repeating.
Full cycles are useful in Pseudorandom number generators.
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Given a random number seed that is greater or equal to zero. Given a total sample size greater than 1. Given a prime number that cannot be evenly divided into the total sample size.
A full cycle can be generated with the following logic. Each number in the sample_size should occur once.
unsigned int random_seed = 0; unsigned int sample_size = 3000; unsigned int generated_number = random_seed % sample_size; unsigned int prime_number = 7; unsigned int increment = prime_number; for(unsigned int iterator = 0; iterator < sample_size; ++iterator) { generated_number = (generated_number + increment) % sample_size; }
// PseudoRandomTest1.cpp : Defines the entry point for the console application. #include "stdafx.h" int main(int argc, char* argv[]) { unsigned int random_seed = 0; const unsigned int sample_size = 3000; unsigned int generated_number = random_seed % sample_size; unsigned int prime_number = 1; unsigned int increment = prime_number; bool test[sample_size] = {0}; for(unsigned int iterator = 0; iterator < sample_size; ++iterator) { generated_number = (generated_number + increment) % sample_size; test[generated_number] = true; static bool displayOnce = true; if (displayOnce) { printf("Predicable Random Numbers:\n"); displayOnce = false; } printf("%d ", generated_number); } for(unsigned int iterator = 0; iterator < sample_size; ++iterator) { if (!test[iterator]) { static bool displayOnce = true; if (displayOnce) { printf("\nYou must have not used a prime number [ERROR]\n"); displayOnce = false; } printf("%d ", iterator); } } }
using System; using System.Collections.Generic; using System.Text; namespace PseudoRandomTest1 { class Program { static Boolean m_DisplayOnce = false; static void Main(string[] args) { const UInt32 random_seed = 0; const UInt32 sample_size = 3000; UInt32 generated_number = random_seed % sample_size; const UInt32 prime_number = 751; const UInt32 increment = prime_number; Boolean[] test = new Boolean[sample_size]; m_DisplayOnce = true; for(UInt32 iterator = 0; iterator < sample_size; ++iterator) { generated_number = (generated_number + increment) % sample_size; test[generated_number] = true; if (m_DisplayOnce) { Console.WriteLine("Predicable Random Numbers:"); m_DisplayOnce = false; } Console.Write("{0} ", generated_number); } m_DisplayOnce = true; for(UInt32 iterator = 0; iterator < sample_size; ++iterator) { if (!test[iterator]) { if (m_DisplayOnce) { Console.WriteLine(); Console.WriteLine("You must have not used a prime number [ERROR]"); m_DisplayOnce = false; } Console.Write("{0} ", iterator); } } } } }