#include #include #include #include #define MAX_ARRAY_SIZE 1000 using namespace std; void calculations(float deltaVal, float deviationVal, string outputFileName); int main(int argc, char const *argv[]) { // calculate part a calculations(0.125, 0.500, "P3A.txt"); calculations(0.125, 1.500, "P3B.txt"); calculations(0.25, 0.500, "P3C.txt"); } void calculations(float deltaVal, float deviationVal, string outputFileName) { ofstream outputFile; outputFile.open(outputFileName.c_str()); // difference = sampleRTT - estimatedRTT // estimatedRTT = estimatedRTT + (delta * difference) // deviation = deviation + delta(|difference| - deviation) // timeOut = mu * estimatedRTT + (phi * deviation) float delta = 0.0, mu = 0.0, phi = 0.0; // float difference = 0.0, estimatedRTT = 0.0, sampleRTT = 0.0; float deviation = 0.0, timeOut = 0.0, tmpDeviation = 0.0, tmpestimateRTT = 0.0; // Values for Jacobson/Karels Algorithim delta = deltaVal; mu = 1.0; phi = 4.0; // do-while loop int i = 0; outputFile << "Iteration #\t\tSampleRTT\t\tEstimatedRTT\t\t Deviation\t\tDifference\t\tTimeout\n"; do { // initial values if (i == 0) { outputFile << fixed << setprecision(4); estimatedRTT = 4.000; deviation = deviationVal; outputFile << i << "\t\t\t\t - \t\t\t\t\t" << estimatedRTT << "\t\t\t\t" << deviation << "\t\t\t - \t\t\t - \n"; i++; } sampleRTT = 1.0000; difference = sampleRTT - estimatedRTT; // calculate estimatedRTT again estimatedRTT = estimatedRTT + (delta * difference); deviation = deviation + delta*(fabs(difference) - deviation); timeOut = mu * estimatedRTT + (phi * deviation); outputFile << i << "\t\t\t\t" << setw(5) << setfill(' ') << sampleRTT << setw(10) << setfill(' ') << "\t\t" << estimatedRTT << setw(8) << setfill(' ') << "\t\t" << deviation << setw(3) << setfill(' ') << "\t\t" << difference << setw(8) << setfill(' ') << "\t" << timeOut << endl; i++; } while (timeOut > 4.0); outputFile.close(); }