/* * $Id: main.cpp 88 2008-12-10 18:31:39Z rosiere $ * * [ Description ] * */ #include "Behavioural/Core/Multi_Execute_loop/Execute_loop/Multi_Read_unit/Read_unit/SelfTest/include/test.h" #define NB_PARAMS 17 void usage (int argc, char * argv[]) { err (_(" %s name_instance list_params.\n"),argv[0]); err (_("list_params is :\n")); err (_(" * size_read_queue (uint32_t)\n")); err (_(" * size_reservation_station (uint32_t)\n")); err (_(" * nb_context (uint32_t)\n")); err (_(" * nb_front_end (uint32_t)\n")); err (_(" * nb_ooo_engine (uint32_t)\n")); err (_(" * nb_packet (uint32_t)\n")); err (_(" * size_general_data (uint32_t)\n")); err (_(" * size_special_data (uint32_t)\n")); err (_(" * nb_general_register (uint32_t)\n")); err (_(" * nb_special_register (uint32_t)\n")); err (_(" * nb_gpr_write (uint32_t)\n")); err (_(" * nb_spr_write (uint32_t)\n")); err (_(" * size_store_queue (uint32_t)\n")); err (_(" * size_load_queue (uint32_t)\n")); err (_(" * nb_inst_retire (uint32_t)\n")); err (_(" * nb_bypass_write (uint32_t)\n")); err (_(" * nb_bypass_memory (uint32_t)\n")); exit (1); } #ifndef SYSTEMC int main (int argc, char * argv[]) #else int sc_main (int argc, char * argv[]) #endif { if (argc != 2+NB_PARAMS) usage (argc, argv); uint32_t x = 1; const string name = argv[x++]; const uint32_t _size_read_queue = atoi(argv[x++]); const uint32_t _size_reservation_station = atoi(argv[x++]); const uint32_t _nb_context = atoi(argv[x++]); const uint32_t _nb_front_end = atoi(argv[x++]); const uint32_t _nb_ooo_engine = atoi(argv[x++]); const uint32_t _nb_packet = atoi(argv[x++]); const uint32_t _size_general_data = atoi(argv[x++]); const uint32_t _size_special_data = atoi(argv[x++]); const uint32_t _nb_general_register = atoi(argv[x++]); const uint32_t _nb_special_register = atoi(argv[x++]); const uint32_t _nb_gpr_write = atoi(argv[x++]); const uint32_t _nb_spr_write = atoi(argv[x++]); const uint32_t _size_store_queue = atoi(argv[x++]); const uint32_t _size_load_queue = atoi(argv[x++]); const uint32_t _nb_inst_retire = atoi(argv[x++]); const uint32_t _nb_bypass_write = atoi(argv[x++]); const uint32_t _nb_bypass_memory = atoi(argv[x++]); try { morpheo::behavioural::core::multi_execute_loop::execute_loop::multi_read_unit::read_unit::Parameters * param = new morpheo::behavioural::core::multi_execute_loop::execute_loop::multi_read_unit::read_unit::Parameters ( _size_read_queue , _size_reservation_station, _nb_context , _nb_front_end , _nb_ooo_engine , _nb_packet , _size_general_data , _size_special_data , _nb_general_register , _nb_special_register , _nb_gpr_write , _nb_spr_write , _size_store_queue , _size_load_queue , _nb_inst_retire , _nb_bypass_write , _nb_bypass_memory , true // is_toplevel ); msg(_("%s"),param->print(1).c_str()); test (name,param); } catch (morpheo::ErrorMorpheo & error) { msg (_("<%s> : %s.\n"),name.c_str(), error.what ()); exit (EXIT_FAILURE); } catch (...) { err (_("<%s> : This test must generate a error.\n"),name.c_str()); exit (EXIT_FAILURE); } return (EXIT_SUCCESS); }