/*********************************************************************** * * This is Cleopatra, a sucessor of Ptolemy * only for (d,p), (d,p), (d,d), or (p,p) * * 1) it read a simple infile.in from reaction_setting file * 2) use Ptolemy to calculate the the creation * 3) extract the cross sec distribution into txt and root file * * ----------------------------------------------------- * This program will call the root library and compile in g++ * compilation: * g++ cleopatra.C -o cleopatra `root-config --cflags --glibs` * *------------------------------------------------------ * The reaction_setting file is simple like: * * 206Hg(d,p)207Hg(1s1/2 0.000) 10MeV/u AK * * the first is similar to usual reaction setting, the word AK is a * short name for Optical Potential, user can put as many line as * they like, Cleopatra can create the suitable infile.in for Ptolomy * * ------------------------------------------------------ * created by Ryan (Tsz Leung) Tang, Nov-18, 2018 * email: goluckyryan@gmail.com * ********************************************************************/ #include #include /* atof */ #include #include #include #include #include #include #include #include #include #include "InFileCreator.h" #include "ExtractXSec.h" #include #include "PlotTGraphTObjArray.h" using namespace std; int main (int argc, char *argv[]) { //TODO add angle range printf("=================================================================\n"); printf("===== Cleopatra, Ptolemy for (d,p),(p,d), (p,p) and (d,d) =====\n"); printf("=================================================================\n"); if(argc < 2 || argc > 5) { printf("Usage: ./Cleopatra input_file (angMin = 0 deg, angMax = 180 deg, angStep = 1 deg)\n"); printf("Usage: ./Cleopatra input_file angMin angMax (angStep = 1 deg)\n"); printf("Usage: ./Cleopatra input_file angMin angMax angStep\n"); exit(0); }else{ printf("From file : %s \n", argv[1]); } //================= read infile. extract the reactions, write pptolemy infile for each reaction string readFile = argv[1]; double angMin = 0.; double angMax = 180.; double angStep = 1.; if( argc >= 4 ){ angMin = atof(argv[2]); angMax = atof(argv[3]); } if( argc == 5 ){ angStep = atof(argv[4]); } string ptolemyInFileName = argv[1]; ptolemyInFileName += ".in"; printf("=================== Create InFile\n"); InFileCreator( readFile, ptolemyInFileName, angMin, angMax, angStep); //================= run ptolemy char command[200]; string ptolemyOutFileName = argv[1]; ptolemyOutFileName += ".out"; sprintf(command, "../Cleopatra/ptolemy <%s> %s", ptolemyInFileName.c_str(), ptolemyOutFileName.c_str()); printf("=================== Run Ptolemy\n"); printf("%s \n", command); system(command); //================= extract the Xsec and save as txt and root printf("=================== Extract Cross-section\n"); ExtractXSec(ptolemyOutFileName); //================= Call root to plot the d.s.c. printf("=================== Plot Result using ROOT.\n"); string rootFileName = argv[1]; rootFileName += ".root"; TApplication app ("app", &argc, argv); PlotTGraphTObjArray(rootFileName); app.Run(); //nothing run after return 0; }