#include #include #include #include using namespace std; using namespace Latan; const Index nPoint1 = 10, nPoint2 = 10; const Index nSample = 1000; const double xErr = .1, yErr = .3; const double exactPar[2] = {0.5,5.}; const double dx1 = 10.0/static_cast(nPoint1); const double dx2 = 5.0/static_cast(nPoint2); int main(void) { // generate fake data XYSampleData data(nSample); double xBuf[2]; random_device rd; mt19937 gen(rd()); normal_distribution<> dis; DoubleModel f([](const double *x, const double *p) {return p[1]*exp(-x[0]*p[0])+x[1];}, 2, 2); cout << "-- generating fake data..." << endl; data.addXDim(nPoint1); data.addXDim(nPoint2); data.addYDim(); for (Index s = central; s < nSample; ++s) { for (Index i1 = 0; i1 < nPoint1; ++i1) { xBuf[0] = i1*dx1; data.x(i1, 0)[s] = xErr*dis(gen) + xBuf[0]; for (Index i2 = 0; i2 < nPoint2; ++i2) { xBuf[1] = i2*dx2; data.x(i2, 1)[s] = xBuf[1]; data.y(data.dataIndex(i1, i2), 0)[s] = yErr*dis(gen) + f(xBuf, exactPar); } } } data.assumeXExact(true, 1); // set minimizers DVec init = DVec::Constant(2, 0.1); SampleFitResult p; GslMinimizer min(GslMinimizer::Algorithm::bfgs2); // fit cout << "-- fit..." << endl; f.parName().setName(0, "m"); f.parName().setName(1, "A"); p = data.fit(min, init, f); p.print(); // plot Plot plot; DVec ref(2); XYStatData res; cout << "-- generating plots..." << endl; ref(1) = 0.; res = data.getPartialResiduals(p, ref, 0).getData(); plot << PlotRange(Axis::x, 0., 10.); plot << Color("rgb 'blue'"); plot << PlotPredBand(p.getModel(_).bind(0, ref), 0., 10.); plot << Color("rgb 'blue'"); plot << PlotFunction(p.getModel().bind(0, ref), 0., 10.); plot << Color("rgb 'red'"); plot << PlotData(res); plot.display(); return EXIT_SUCCESS; }