int main() { try { main1(); } catch (...) { return 0; } return 1; }
int main () { int i; check_vect (); asm (""); return main1 (); }
/** ** Callback to c-main1. */ local SCM CclMain1(void) { main1(0,NULL); DebugLevel0("Shouldn't be reached\n"); return SCM_UNSPECIFIED; }
int main (void) { check_vect (); main1 (fa, fb, fc); return 0; }
int main (void) { check_vect (); main1 (2, 3, &in[0], &out[0]); return 0; }
int main (void) { int m = 8; check_vect (); return main1 (m, &m); }
int main (void) { int i; int n=N; check_vect (); main1 (n); return 0; }
int main (void) { check_vect (); main1 (2, 3); return 0; }
int main (void) { check_vect (); main1 (15,14,13,12,11,10,9,8,7,6,5,4,3,2,1,0); return 0; }
int main(int argc, char ** argv) { main1(); main2(); main3(); main4(); main5(); }
int main(){ main1(512); main1(1024); main1(3000); main1(10000); main1(50000); main1(100000); main1(200000); main1(500000); }
int main() { g_hInstance=GetModuleHandle(0); g_hProcessHeap=GetProcessHeap(); CoInitializeEx(NULL, COINIT_APARTMENTTHREADED | COINIT_DISABLE_OLE1DDE); main1(); CoUninitialize(); ExitProcess(0); }
int main (void) { int i; struct foo *p = malloc (2*sizeof (struct foo)); check_vect (); main1 (p); return 0; }
int main (void) { check_vect (); main1 (N-7); main2 (N-3); return 0; }
int main( int coreid ) { if( coreid == 0 ) { return main0(); } else if( coreid == 1 ) { return main1(); } return 0; }
int main(int argc, char *argv[]) { int core = getCoreId(); if( core == 0 ) { return main0(); } else if(core == 1) { return main1(); } return 0; }
Sound3D::Sound3D(ImpFunc * function, bool Attributes, int size, double k) { this->function=function; this->Attributes= Attributes; this->sSize=size; this->k=k; main1(); LoadALData(); };
int main (void) { int i; check_vect (); main1 (); return 0; }
int main (void) { check_vect (); main1 (N-2); main2 (N-1); return 0; }
void Transistor() { char ch; float p,q,r,s,ib,ic,ie,A,B,vbb,vcc,vbe,vce,rb,rc; clrscr(); printf("\n\t"); textcolor(RED); cprintf(" Problem on Transistors:\n "); printf("\n\n\t"); textcolor(YELLOW); cprintf(" Press 0 to go back"); printf("\n\t"); cprintf(" Press any key to Enter"); textcolor(WHITE); printf(""); date(); gotoxy(10,8); ch=getch(); if(ch=='0') main1(); else if(ch!='0') { printf("\n\n\t"); textcolor(WHITE); printf(" Enter the value of Vcc(Collector voltage in volts) : "); scanf("%f",&vcc); printf("\t Enter the value of Vbb(Base voltage in volts) : "); scanf("%f",&vbb); printf("\t Enter the value of Rb(Base Resistance in ohms) : "); scanf("%f",&rb); printf("\t Enter the value of Rc(Collector Resistance in ohms) : "); scanf("%f",&rc); printf("\t Enter the value of Vbe(Base-Emitter voltage in volts) : "); scanf("%f",&vbe); printf("\t Enter the value of Vce(Collector-Emitter voltage in volts) : "); scanf("%f",&vce); ib=(vbb-vbe)/rb;//Base Current ic=(vcc-vce)/rc;//Collector current B=ic/ib;//beta ie=ic+ib;//Emitter Current A=ic/ie;//alpha p=ib*1000000; q=ic*1000; r=ie*1000; clrscr(); printf("\n\t"); textcolor(RED+BLINK); cprintf(" Solution:\n"); printf("\n\t 1.Ie(Emitter Current) = %f mA",r); printf("\n\t 2.Ic(Collector Current) = %f mA",q); printf("\n\t 3.Ib(Base Current) = %f MA",p); printf("\n\t 4.B(Beta) = %f",B); printf("\n\t 5.A(Alpha) = %f",A); end(); } }
int main(int argc, char* argv[]) { #ifdef WIN32 if (argc >= 2) { if (!strcmp(argv[1], "--install")) { if (nt_service_install(g_service_name)) { std::cerr << "Failed to install service " << g_service_name << "." << std::endl; return 1; } std::cout << "Service " << g_service_name << " has been installed." << std::endl; return 0; } else if (!strcmp(argv[1], "--uninstall")) { if (nt_service_uninstall(g_service_name)) { std::cerr << "Failed to uninstall service " << g_service_name << "." << std::endl; return 1; } std::cout << "Service " << g_service_name << " has been uninstalled." << std::endl; return 0; } else if (!strcmp(argv[1], "--conf_file") && argc >= 3) g_conf_file = argv[2]; else return 1; } #ifdef NDEBUG SERVICE_TABLE_ENTRY st[] = { { "", nt_service_main }, { NULL, NULL } }; if (StartServiceCtrlDispatcher(st)) return 0; if (GetLastError() != ERROR_CALL_NOT_IMPLEMENTED && GetLastError() != ERROR_FAILED_SERVICE_CONTROLLER_CONNECT) return 1; #endif #else if (argc >= 2) { if (!strcmp(argv[1], "--conf_file") && argc >= 3) g_conf_file = argv[2]; else { std::cerr << " --conf_file arg (=xbt_tracker.conf)" << std::endl; return 1; } } #endif return main1(); }
int main() { main1(); main2(); main3(); main4(); main5(); main6(); }
int main (void) { int i; float a[N] __attribute__ ((__aligned__(__BIGGEST_ALIGNMENT__))); check_vect (); main1 (a); return 0; }
int main (void) { /* Exit on systems without altivec. */ signal (SIGILL, sig_ill_handler); /* Altivec instruction, 'vor %v0,%v0,%v0'. */ asm volatile (".long 0x10000484"); signal (SIGILL, SIG_DFL); return main1 (); }
int main (void) { int i; s arr[N]; for (i = 0; i < N; i++) { arr[i].a = i + 9; arr[i].b = i * 2 + 10; arr[i].c = 17; arr[i].d = i+34; asm volatile ("" ::: "memory"); } check_vect (); main1 (100, 100, 1, arr); main1 (0, 15, 0, arr); return 0; }
int main (void) { int i; check_vect (); for (i = 0; i < N+5; i++) ib[i] = i; return main1 (); }
int main (void) { int i; s arr[N]; for (i = 0; i < N; i++) { arr[i].a = i + 9; arr[i].b = i * 2 + 10; arr[i].c = 17; arr[i].d = i+34; if (arr[i].a == 178) abort(); } check_vect (); main1 (100, 100, 1, arr); main1 (0, 15, 0, arr); return 0; }
int main (void) { int i; check_vect (); main1 (); for (i=0; i<N; i++) if (a.d[i] != 1) abort (); return 0; }
int main (void) { int s; check_vect (); s = main1 (26); if (s != 182) abort (); return 0; }
int main (void) { int i; int n=N; float a[N] __attribute__ ((__aligned__(16))); check_vect (); main1 (n,a); return 0; }