/********************************************************** This software is part of J.-S. Caux's ABACUS library. Copyright (c) J.-S. Caux. ----------------------------------------------------------- File: LiebLin_DSF.cc Purpose: main function for ABACUS for LiebLin gas ***********************************************************/ #include "ABACUS.h" using namespace std; using namespace ABACUS; int main(int argc, char* argv[]) { if (argc != 11) { // provide some info cout << endl << "Welcome to ABACUS\t(copyright J.-S. Caux)." << endl; cout << endl << "Usage of LiebLin_DSF_Tgt0 executable: " << endl; cout << endl << "Provide the following arguments:" << endl << endl; cout << "char whichDSF \t\t Which structure factor should be calculated ? Options are: " "d for rho rho, g for psi psi{dagger}, o for psi{dagger} psi" << endl; cout << "DP c_int \t\t Value of the interaction parameter: use positive real values only" << endl; cout << "DP L \t\t\t Length of the system: use positive real values only" << endl; cout << "int N \t\t\t Number of particles: use positive integer values only" << endl; cout << "int iKmin" << endl << "int iKmax \t\t Min and max momentum integers to scan over: " "recommended values: -2*N and 2*N" << endl; cout << "DP kBT \t\t Temperature (positive only of course)" << endl; cout << "int Max_Secs \t\t Allowed computational time: (in seconds)" << endl; cout << "DP target_sumrule \t sumrule saturation you're satisfied with" << endl; cout << "bool refine \t\t Is this a refinement of earlier calculations ? (0 == false, 1 == true)" << endl; cout << endl << "EXAMPLE: " << endl << endl; cout << "LiebLin_DSF d 1.0 100.0 100 0 200 0.56 600 1.0 0" << endl << endl; } else { // (argc == 10), correct nr of arguments char whichDSF = *argv[1]; DP c_int = atof(argv[2]); DP L = atof(argv[3]); int N = atoi(argv[4]); int iKmin = atoi(argv[5]); int iKmax = atoi(argv[6]); DP kBT = atof(argv[7]); int Max_Secs = atoi(argv[8]); DP target_sumrule = atof(argv[9]); bool refine = (atoi(argv[10]) == 1); Scan_LiebLin (whichDSF, c_int, L, N, iKmin, iKmax, kBT, Max_Secs, target_sumrule, refine); } return(0); }