#include "BM1DProcess.hh" BM1DProcess::BM1DProcess() { randomGenerator = new TRandom(); randomGeneratorGauss = new TRandom(); } BM1DProcess::~BM1DProcess() { delete randomGenerator; delete randomGeneratorGauss; } void BM1DProcess::Run(int nRuns, int nSteps, double p0, double p1) { for(int i = 0; i < nRuns; i++) //multiple runs { t.push_back(0.0); //let's start at t=0, x=0, you can change it if you vant, please use Set methods x.push_back(0.0); for(int ii = 0; ii < nSteps ; ii++) { rand1 = randomGenerator->Uniform(); if(rand1 < p0) //step in time, but no step in x { t.push_back(t.back() + 1); x.push_back(x.back()); } else //step left or right { if(rand1 < p0 + p1) { t.push_back(t.back()+1); x.push_back(x.back()+1); //one step right } else { t.push_back(t.back() + 1); x.push_back(x.back() - 1); //one step left } } } } } void BM1DProcess::Run(int nRuns, int nSteps, double p0, double mu, double sigma) { for(int i = 0; i < nRuns; i++) //multiple runs { t.push_back(0.0); //let's start at t=0, x=0, you can change it if you vant, please use Set methods x.push_back(0.0); for(int ii = 0; ii < nSteps ; ii++) { rand1 = randomGenerator->Uniform(); if(rand1 < p0) //step in time, but no step in x { t.push_back(t.back() + 1); x.push_back(x.back()); } else //step left or right { double randGauss = randomGeneratorGauss -> Gaus(mu,sigma); t.push_back(t.back() + 1); x.push_back(x.back() + randGauss); //one step right } } } } void BM1DProcess::Run(int nRuns, int nSteps, double p0, double x1, double x2, double mu1, double sigma1, double mu2, double sigma2) { for(int i = 0; i < nRuns; i++) //multiple runs { t.push_back(0.0); //let's start at t=0, x=0, you can change it if you vant, please use Set methods x.push_back(0.0); double randGauss; for(int ii = 0; ii < nSteps ; ii++) { rand1 = randomGenerator->Uniform(); if(rand1 < p0) //step in time, but no step in x { t.push_back(t.back() + 1); x.push_back(x.back()); } else //step left or right { if(x.back() < x2 && x.back() > x1) { randGauss = randomGeneratorGauss -> Gaus(mu1,sigma1); } else { randGauss = randomGeneratorGauss -> Gaus(mu2,sigma2); } t.push_back(t.back() + 1); x.push_back(x.back() + randGauss); //one step right } } } }