/** * @file generator.c * @author Ivaylo Ivanov 11777707 * @date 11.01.2018 * * @brief Generator program module. * * The generator program takes a graph as input. The program repeatedly generates a random solution * to the problem as described on the first page and writes its result to the circular buffer. It repeats this * procedure until it is notified by the supervisor to terminate. * The generator program takes as arguments the set of edges of the graph. * Each positional argument is one edge; at least one edge must be given. An edge is specified by a string, * with the indices of the two nodes it connects separated by a -. Since the graph is directed, the edge starts * at the first node and leads to the second node. Note that the number of nodes of the graph is implicitly * provided through the indices in the edges. In the example above the generator program is called with * the graph shown on the first page. * The generator uses the algorithm described on the first page to generate random feedback arc sets for the * given graph. It writes these feedback arc sets to the circular buffer, one at a time; therefore a feedback * arc set is a single element of the circular buffer. The generator may produce debug output, describing * the feedback arc sets which it writes to the circular buffer. * * SYNOPSIS * generator EDGE1 EDGE2 ... * * EXAMPLE * generator 0-1 1-2 1-3 1-4 2-4 3-6 4-3 4-5 6-0 * **/ #include "shared/shm.c" int main(int argc, char *argv[]) { if(argc > 1) { fprintf(stderr, "ERROR: Command takes no arguments"); exit(EXIT_FAILURE); } void* terminate_shm = open_shm(TERMINATE_SHM, TERMINATE_SHM_SIZE); write_to_shm(terminate_shm, "1", TERMINATE_SHM_SIZE); puts(terminate_shm); close_shm(terminate_shm, TERMINATE_SHM_SIZE); destroy_shm(TERMINATE_SHM); }