int main() { double Delta_i; double* S; Delta_i=0.5; g_Ns=g_N*g_N; g_dim=dim_of_k(); K=(double*)malloc(sizeof(double)*2*g_dim); init_K(K); S=(double*)malloc(sizeof(double)*3*g_dim); g_Delta=Delta_i; g_Uf=init_S(S); printf("Delta_i=%lf g_U=%lf",Delta_i,g_Uf); evolution(S); printf("Delta_i=%lf g_U=%lf",Delta_i,g_Uf); free(S); free(K); return 0; }
int main(int argc, char* argv[]) { int total; init_K(G_maxargs); G_callvm = (DCCallVM*) dcNewCallVM(4096); total = run_all(); printf("result: call_suite: %d\n", total); return 0; }
int main(int argc, char* argv[]) { int total; dcTest_initPlatform(); init_K(G_maxargs); G_callvm = (DCCallVM*) dcNewCallVM(4096); dcReset(G_callvm); total = run_all(); printf("result: call_suite: %d\n", total); dcTest_deInitPlatform(); return 0; }
int main() { double Delta_i, Delta_f, Ui; double* S; double* K; Delta_i=0.8; Delta_f=0.5; g_Ns=g_N*g_N; g_dim=dim_of_k(); printf("%ld\n",g_dim); K=(double*)malloc(sizeof(double)*2*g_dim); init_K(K); S=(double*)malloc(sizeof(double)*3*g_dim); //firt we should get g_Uf. g_Delta=Delta_f; g_Uf=init_S(S,K); //then initalize S using the same function g_Delta=Delta_i; Ui=init_S(S,K); printf("Delta_i=%lf U_i=%lf Delta_f=%lf U_f=%lf\n",Delta_i,Ui,Delta_f,g_Uf); // S=(double*)malloc(sizeof(double)*3*g_Ns); // //firt we should get g_Uf. // g_Delta=Delta_f; // g_Uf=init_S(S); // //then initalize S using the same function // g_Delta=Delta_i; // Ui=init_S(S); // // printf("Delta_i=%lf U_i=%lf Delta_f=%lf U_f=%lf\n",Delta_i,Ui,Delta_f,g_Uf); // // // printf("Delta_i=%lf U_i=%lf Delta_f=%lf U_f=%lf\n",Delta_i,Ui,Delta_f,g_Uf); // free(S); return 0; }