int main() { timeout_queue = NULL; pcb_init_t itable[3]; itable[0].pid = TIMER_I_PROCESS_PID; itable[0].name = "timer_i_process"; itable[0].priority = 0; itable[0].start = timer_i_process; itable[0].stack_size = 4096; itable[0].is_i_process = 1; itable[0].is_sys_process = 0; itable[1].pid = CCI_PID; itable[1].name = "fake_cci"; itable[1].priority = 0; itable[1].start = fake_cci; itable[1].stack_size = 4096; itable[1].is_i_process = 0; itable[1].is_sys_process = 1; itable[2].pid = NULL_PID; itable[2].name = "null"; itable[2].priority = 3; itable[2].start = null_process; itable[2].stack_size = 4096; itable[2].is_i_process = 0; itable[2].is_sys_process = 1; trace(ALWAYS,"Starting initialization"); k_init(itable, 3, FALSE, TRUE); return 0; }
void test_jsw_level (int n, int level) { struct jsw_tree tree = { 0 }; u64 key; s64 count = 0; int i; int rc; u64 start, finish, total; k_seed(1); k_init(); start = nsecs(); for (i = 0; i < n; i++) { if (k_should_delete(count, level)) { key = k_delete_rand(); rc = jsw_remove(&tree, key); if (!rc) fatal("jswremove key=%lld", key); --count; } else { key = k_rand_key(); k_add(key); rc = jsw_insert(&tree, key); if (!rc) fatal("jswinsert key=%lld", key); ++count; } } finish = nsecs(); total = finish - start; printf("%lld nsecs %g nsecs/op\n", total, (double)total/(double)n); }
//------------------------------------------------------------------------------ // Function: main // // Description: Initializes Kernel then creates 4 threads where each blinks // a different LED at its own rate. The last thread created // (thread 0) replaces 'main'. // // Threads use the following resources: // // thread0 - PORTB bit 2 (Arduino pin 10) // thread1 - PORTB bit 3 (Arduino pin 11) // thread2 - PORTB bit 4 (Arduino pin 12) // thread3 - PORTB bit 5 (Arduino pin 13) // //------------------------------------------------------------------------------ int main(void) { k_init(); setupStuff(); //k_new(T3_ID, thread3, 1); //k_new(T2_ID, thread2, 1); //k_new(T1_ID, thread1, 1); //k_new(T0_ID, thread0, 1); // This replaces 'main' while(1); // should not get here at all }
void startupc(void) { clr_bss(); /* clear BSS area (uninitialized data) */ init_devio(); /* latch onto Tutor-supplied info, code */ k_init(); /* start kernel */ }
int main(int argc, char * argv[]) { utest_start(); enable_debug = 1; append_i = 0; trace_uint(ALWAYS,"append i ", append_i); trace_ptr(ALWAYS,"expected ", expected); trace(ALWAYS,expected); pcb_init_t itable[6]; itable[0].pid = 0; itable[0].name = "a"; itable[0].priority = 0; itable[0].start = start_a; itable[0].stack_size = 4096; itable[0].is_i_process = 0; itable[0].is_sys_process = 0; itable[1].pid = 1; itable[1].name = "b"; itable[1].priority = 0; itable[1].start = start_b; itable[1].stack_size = 4096; itable[1].is_i_process = 0; itable[1].is_sys_process = 0; itable[2].pid = 2; itable[2].name = "c"; itable[2].priority = 1; itable[2].start = start_c; itable[2].stack_size = 4096; itable[2].is_i_process = 0; itable[2].is_sys_process = 0; itable[3].pid = 3; itable[3].name = "d"; itable[3].priority = 1; itable[3].start = start_d; itable[3].stack_size = 4096; itable[3].is_i_process = 0; itable[3].is_sys_process = 0; itable[4].pid = 4; itable[4].name = "e"; itable[4].priority = 1; itable[4].start = start_e; itable[4].stack_size = 4096; itable[4].is_i_process = 0; itable[4].is_sys_process = 0; itable[5].pid = 5; itable[5].name = "f"; itable[5].priority = 2; itable[5].start = start_f; itable[5].stack_size = 4096; itable[5].is_i_process = 0; itable[5].is_sys_process = 0; k_init(itable, 6, FALSE, FALSE); return 0; }