#include "../src/hoppet_v1.h" #include #include #include using namespace std; // definition of the initial condition function void heralhc_init(const double & x, const double & Q, double * pdf); //---------------------------------------------------------------------- int main () { double dy = 0.1; int nloop = 3; // initialise with NNLO, VFN hoppetStart(dy, nloop); // hoppetSetPoleMassVFN(1.414213563, 4.5, 175.0); // evolve the initial condition double asQ0 = 0.35, Q0=sqrt(2.0); hoppetEvolve(asQ0, Q0, nloop, 1.0, heralhc_init, Q0); // alternatively preprepare an evolution and then use its cached version. //hoppetPreEvolve(asQ0, Q0, nloop, 1.0, Q0); //hoppetCachedEvolve(heralhc_init); // output the results double pdf[13]; double xvals[9]={1e-5,1e-4,1e-3,1e-2,0.1,0.3,0.5,0.7,0.9}; double Q = 100; printf(" Evaluating PDFs at Q = %8.3f GeV\n",Q); printf(" x u-ubar d-dbar 2(ubr+dbr) c+cbar gluon\n"); for (int ix = 0; ix < 9; ix++) { hoppetEval(xvals[ix], Q, pdf); printf("%7.1E %11.4E %11.4E %11.4E %11.4E %11.4E\n",xvals[ix], pdf[6+2]-pdf[6-2], pdf[6+1]-pdf[6-1], 2*(pdf[6-1]+pdf[6-2]), (pdf[6-4]+pdf[6+4]), pdf[6+0]); } } //---------------------------------------------------------------------- // the initial condition void heralhc_init(const double & x, const double & Q, double * pdf) { double uv, dv; double ubar, dbar; double N_g=1.7, N_ls=0.387975; double N_uv=5.107200, N_dv=3.064320; double N_db=N_ls/2; uv = N_uv * pow(x,0.8) * pow((1-x),3); dv = N_dv * pow(x,0.8) * pow((1-x),4); dbar = N_db * pow(x,-0.1) * pow(1-x,6); ubar = dbar * (1-x); pdf[ 0+6] = N_g * pow(x,-0.1) * pow(1-x,5); pdf[-3+6] = 0.2*(dbar + ubar); pdf[ 3+6] = pdf[-3+6]; pdf[ 2+6] = uv + ubar; pdf[-2+6] = ubar; pdf[ 1+6] = dv + dbar; pdf[-1+6] = dbar; pdf[ 4+6] = 0; pdf[ 5+6] = 0; pdf[ 6+6] = 0; pdf[-4+6] = 0; pdf[-5+6] = 0; pdf[-6+6] = 0; }