static void parse_args (int argc, char **argv) { int i; for (i = 1; i < argc; i++) { if (strcmp (argv[i], "-o") == 0) output_filename = argv[++i]; else if (strcmp (argv[i], "-v") == 0) VERBOSE = 1; else if (strcmp (argv[i], "-z") == 0) compress = 1; else if (strcmp (argv[i], "-t") == 0){ char* trace_type = argv[++i]; if(strcmp(trace_type, "PAJE") == 0) { printf("Setting trace type to PAJE\n"); setTraceType (PAJE); } else if(strcmp(trace_type, "OTF") == 0) { printf("Setting trace type to OTF\n"); setTraceType (OTF); } else { fprintf(stderr, "Unknown trace type: '%s'\n", trace_type); exit(-1); } } else if(strcmp (argv[i], "-h") == 0) { usage (argc, argv); exit (-1); } else if ( argv[i][0] == '-' ) { fprintf(stderr, "Unknown option %s\n", argv[i]); usage (argc, argv); exit (-1); } else { eztrace_convert_init(argc-i); get_traces(NB_TRACES)->input_filename = argv[i]; NB_TRACES++; } } if(NB_TRACES < 1) { usage (argc, argv); exit (-1); } }
int main (int argc, char** argv){ setTraceType (PAJE); initTrace ("gtg_color", 0, GTG_FLAG_NONE); addContType ("CT_NET", "0", "Network"); addContType ("CT_NODE", "CT_NET", "Node"); addContType ("CT_PROC", "CT_NODE", "Proc"); addStateType ("ST_NodeState", "CT_NODE", "Node state"); addStateType ("ST_ProcState", "CT_PROC", "Procstate"); addEntityValue ("SN_0", "ST_NodeState", "black", GTG_BLACK); addEntityValue ("SN_1", "ST_NodeState", "red", GTG_RED); addEntityValue ("SN_2", "ST_NodeState", "green", GTG_GREEN); addEntityValue ("SN_3", "ST_NodeState", "blue", GTG_BLUE); addEntityValue ("SN_4", "ST_NodeState", "white", GTG_WHITE); addEntityValue ("SN_5", "ST_NodeState", "teal", GTG_TEAL); addEntityValue ("SN_6", "ST_NodeState", "darkgrey", GTG_DARKGREY); addEntityValue ("SN_7", "ST_NodeState", "yellow", GTG_YELLOW); addEntityValue ("SN_8", "ST_NodeState", "purple", GTG_PURPLE); addEntityValue ("SN_9", "ST_NodeState", "lightbrown", GTG_LIGHTBROWN); addEntityValue ("SN_10", "ST_NodeState", "lightgrey", GTG_LIGHTGREY); addEntityValue ("SN_11", "ST_NodeState", "darkblue", GTG_DARKBLUE); addEntityValue ("SN_12", "ST_NodeState", "pink", GTG_PINK); addEntityValue ("SN_13", "ST_NodeState", "darkpink", GTG_DARKPINK); addEntityValue ("SN_14", "ST_NodeState", "seablue", GTG_SEABLUE); addEntityValue ("SN_15", "ST_NodeState", "kaki", GTG_KAKI); addEntityValue ("SN_16", "ST_NodeState", "redblood", GTG_REDBLOOD); addEntityValue ("SN_17", "ST_NodeState", "brown", GTG_BROWN); addEntityValue ("SN_18", "ST_NodeState", "grenat", GTG_GRENAT); addEntityValue ("SN_19", "ST_NodeState", "orange", GTG_ORANGE); addEntityValue ("SN_20", "ST_NodeState", "mauve", GTG_MAUVE); addEntityValue ("SN_21", "ST_NodeState", "lightpink", GTG_LIGHTPINK); addContainer (0.00000, "C_Net0", "CT_NET", "0", "Ensemble0", "0"); addContainer (0.00000, "C_N0", "CT_NODE", "C_Net0", "Node0", "0"); addContainer (0.00000, "C_P0", "CT_PROC", "C_N0", "Proc0", "0"); int i; for(i=0; i<21;i++) { char* nodeState = NULL; asprintf(&nodeState, "SN_%d", i); setState ((float)i, "ST_NodeState", "C_P0", nodeState); } endTrace (); return EXIT_SUCCESS; }
/* * This program should be used to parse the log file generated by FxT */ int main (int argc, char **argv) { int ret; int fd_in; load_modules(1); setTraceType (PAJE); /* parse the arguments passed to this program */ parse_args (argc, argv); #ifdef GTG_OUT_OF_ORDER ret = initTrace(output_filename, 0, GTG_FLAG_OUTOFORDER); #else ret = initTrace(output_filename, 0, GTG_FLAG_NONE); #endif if(ret != TRACE_SUCCESS) { fprintf(stderr, "fail to initialize GTG\n"); return 1; } if(compress) if(setCompress(9) != TRACE_SUCCESS) fprintf(stderr, "Fail to enable trace compression\n"); eztrace_initialize_gtg(); __init_modules(); int i; /* initialize the traces array */ for(i=0;i< NB_TRACES; i++) { /* open the trace file */ fxt_t fut = fxt_open (get_traces(i)->input_filename); if (!fut) { perror ("fxt_open:"); exit (-1); } get_traces(i)->delay = 0; get_traces(i)->rank = i; get_traces(i)->id = i; get_traces(i)->done = 0; get_traces(i)->skip = 0; get_traces(i)->line_number = 0; eztrace_create_containers(i); /* if several traces are loaded, this means that MPI was used, * so let's skip all the first events until MPI_Init is detected */ if(NB_TRACES > 1) { get_traces(i)->start = 0; get_traces(i)->trace_id = NULL; } else { CREATE_TRACE_ID_STR(get_traces(i)->trace_id, 0); get_traces(i)->start = 1; NB_START= 1; addContainer (0.00000, get_traces(i)->trace_id, "CT_Process", "C_Prog", get_traces(i)->trace_id, "0"); eztrace_create_ids(get_traces(i)->rank); } get_traces(i)->block = fxt_blockev_enter (fut); ret = fxt_next_ev (get_traces(i)->block, FXT_EV_TYPE_64, (struct fxt_ev *) &get_traces(i)->ev); if (ret != FXT_EV_OK) { fprintf (stderr, "no more block ...\n"); break; } get_traces(i)->start_time = get_traces(i)->ev.time; } /* todo: 0 or i ? */ set_cur_trace(get_traces(0)); set_cur_ev(&get_traces(i)->ev); struct eztrace_event_handler* h_info = NULL; h_info = get_handler_info(); h_info->cur_trace_nb = 0; h_info->nb_done = 0; h_info->nb_handled = 0; sem_init(&h_info->events_processed, 0, 0); /* create the handler thread and wait until it completes */ create_main_thread(); wake_up_handler_thread(); sem_wait(&h_info->events_processed); /* finalize the trace and close the file */ endTrace (); eztrace_convert_finalize(); printf("%d events handled\n", h_info->nb_handled); return 0; }
int main (int argc, char** argv){ int rk; MPI_Init (&argc, &argv); MPI_Comm_rank (MPI_COMM_WORLD, &rk); setTraceType (VITE, BUFF); setComm (MPI_COMM_WORLD); initTrace ("cvite"); if (rk==0){ addContType ("CT_NET", "0", "Network"); addContType ("CT_NODE", "CT_NET", "Node"); addContType ("CT_PROC", "CT_NODE", "Proc"); addStateType ("ST_NodeState", "CT_NODE", "Node state"); addStateType ("ST_ProcState", "CT_PROC", "Procstate"); addEntityValue ("SN_0", "ST_NodeState", "Sleep", "0.5 0.5 0.5"); addEntityValue ("SN_1", "ST_NodeState", "WaitLocal", "0.0 0.5 0.9"); addEntityValue ("SN_2", "ST_NodeState", "WaitDistant", "0.9 0.5 0.0"); addEntityValue ("SP_3", "ST_ProcState", "Produit", "0.5 0.9 0.0"); addEntityValue ("SP_4", "ST_ProcState", "Somme", "0.9 0.9 0.0"); addEntityValue ("SP_5", "ST_ProcState", "Difference", "0.1 0.5 0.4"); addLinkType ("L_0", "Fanin", "CT_NET", "CT_PROC", "CT_PROC"); addLinkType ("L_1", "Bloc", "CT_NET", "CT_PROC", "CT_PROC"); addVarType ("V_Mem", "Memoire", "CT_NODE"); addEventType ("E_0", "CT_PROC", "Lapin"); addEventType ("E_1", "CT_PROC", "Chocolat"); addContainer (0.00000, "C_Net0", "CT_NET", "0", "Ensemble0", "0"); addContainer (0.00000, "C_N0", "CT_NODE", "C_Net0", "Node0", "0"); addContainer (0.00000, "C_N1", "CT_NODE", "C_Net0", "Node1", "0"); addContainer (0.00000, "C_P0", "CT_PROC", "C_N0", "Proc0", "cvite_proc0"); addContainer (0.00000, "C_P1", "CT_PROC", "C_N0", "Proc1", "cvite_proc1"); addContainer (0.00000, "C_P2", "CT_PROC", "C_N0", "Proc2", "cvite_proc2"); addContainer (0.00000, "C_P3", "CT_PROC", "C_N1", "Proc3", "cvite_proc3"); addContainer (0.00000, "C_P4", "CT_PROC", "C_N1", "Proc4", "cvite_proc4"); addContainer (0.00000, "C_P5", "CT_PROC", "C_N1", "Proc5", "cvite_proc5"); } setVar (0.0111742, "V_Mem", "C_N0", 1.0000000); setState (0.01120000, "ST_NodeState", "C_N1", "SN_1"); setState (0.02121000, "ST_NodeState", "C_N0", "SN_0"); setVar (0.0212742, "V_Mem", "C_N0", 2.0000000); setState (0.03122000, "ST_NodeState", "C_N1", "SN_2"); setState (0.04123000, "ST_NodeState", "C_N0", "SN_1"); setVar (0.0313742, "V_Mem", "C_N0", 3.0000000); setVar (0.0414742, "V_Mem", "C_N1", 1.0000000); setState (0.05124000, "ST_NodeState", "C_N1", "SN_0"); setVar (0.0515742, "V_Mem", "C_N1", 2.0000000); setState (0.06124500, "ST_NodeState", "C_N0", "SN_2"); setVar (0.0616742, "V_Mem", "C_N1", 3.0000000); switch (rk){ case 0: setState (0.00130000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00150000, "ST_ProcState", "C_P0", "SP_5"); setState (0.00230000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00330000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00830000, "ST_ProcState", "C_P0", "SP_3"); setState (0.03130000, "ST_ProcState", "C_P0", "SP_3"); setState (0.05130000, "ST_ProcState", "C_P0", "SP_4"); setState (0.09130000, "ST_ProcState", "C_P0", "SP_3"); startLink (0.040000, "L_0", "C_Net0", "C_P0", "C_P5", "14", "2"); endLink (0.050000, "L_0", "C_Net0", "C_P0", "C_P5", "14", "2"); addEvent (0.030000, "E_0", "C_P0", "11"); break; case 1 : setState (0.00140000, "ST_ProcState", "C_P1", "SP_3"); setState (0.00210000, "ST_ProcState", "C_P1", "SP_4"); setState (0.00930000, "ST_ProcState", "C_P1", "SP_3"); setState (0.01030000, "ST_ProcState", "C_P1", "SP_4"); addEvent (0.070000, "E_1", "C_P1", "1"); break; case 3 : setState (0.00160000, "ST_ProcState", "C_P3", "SP_5"); setState (0.00200000, "ST_ProcState", "C_P3", "SP_4"); setState (0.00630000, "ST_ProcState", "C_P3", "SP_5"); setState (0.04130000, "ST_ProcState", "C_P3", "SP_3"); startLink (0.050000, "L_1", "C_Net0", "C_P3", "C_P1", "15", "3"); endLink (0.060000, "L_1", "C_Net0", "C_P3", "C_P1", "15", "3"); break; case 4 : setState (0.00170000, "ST_ProcState", "C_P4", "SP_3"); setState (0.00530000, "ST_ProcState", "C_P4", "SP_5"); setState (0.07130000, "ST_ProcState", "C_P4", "SP_5"); startLink (0.030000, "L_1", "C_Net0", "C_P4", "C_P2", "13", "1"); endLink (0.030000, "L_0", "C_Net0", "C_P2", "C_P4", "12", "0"); break; case 5 : setState (0.00180000, "ST_ProcState", "C_P5", "SP_4"); setState (0.00430000, "ST_ProcState", "C_P5", "SP_4"); setState (0.06130000, "ST_ProcState", "C_P5", "SP_5"); addEvent (0.090000, "E_1", "C_P5", "3"); break; case 2 : setState (0.00190000, "ST_ProcState", "C_P2", "SP_3"); setState (0.00730000, "ST_ProcState", "C_P2", "SP_5"); setState (0.02130000, "ST_ProcState", "C_P2", "SP_4"); setState (0.08130000, "ST_ProcState", "C_P2", "SP_4"); startLink (0.020000, "L_0", "C_Net0", "C_P2", "C_P4", "12", "0"); endLink (0.040000, "L_1", "C_Net0", "C_P4", "C_P2", "13", "1"); addEvent (0.050000, "E_0", "C_P2", "10"); break; default : break; } endTrace (); MPI_Finalize (); return EXIT_SUCCESS; }
void setTraceType_i (int *type) { setTraceType ((traceType_t) * type); }
int main (int argc, char** argv){ (void) argc; (void) argv; setTraceType (PAJE); initTrace ("cpaje", 0, GTG_FLAG_NONE); addContType ("CT_NET", "0", "Network"); addContType ("CT_NODE", "CT_NET", "Node"); addContType ("CT_PROC", "CT_NODE", "Proc"); addStateType ("ST_NodeState", "CT_NODE", "Node state"); addStateType ("ST_ProcState", "CT_PROC", "Procstate"); addEntityValue ("SN_0", "ST_NodeState", "Sleep", GTG_LIGHTPINK); addEntityValue ("SN_1", "ST_NodeState", "WaitLocal", GTG_PINK); addEntityValue ("SN_2", "ST_NodeState", "WaitDistant", GTG_BLUE); addEntityValue ("SP_3", "ST_ProcState", "Produit", GTG_ORANGE); addEntityValue ("SP_4", "ST_ProcState", "Somme", GTG_GREEN); addEntityValue ("SP_5", "ST_ProcState", "Difference", GTG_BLACK); addLinkType ("L_0", "Fanin", "CT_NET", "CT_PROC", "CT_PROC"); addLinkType ("L_1", "Bloc", "CT_NET", "CT_PROC", "CT_PROC"); addVarType ("V_Mem", "Memoire", "CT_NODE"); addEventType ("E_0", "CT_PROC", "Lapin"); addEventType ("E_1", "CT_PROC", "Chocolat"); addContainer (0.00000, "C_Net0", "CT_NET", "0", "Ensemble0", "0"); addContainer (0.00000, "C_N0", "CT_NODE", "C_Net0", "Node0", "0"); addContainer (0.00000, "C_P0", "CT_PROC", "C_N0", "Proc0", "0"); addContainer (0.00000, "C_P1", "CT_PROC", "C_N0", "Proc1", "0"); addContainer (0.00000, "C_P2", "CT_PROC", "C_N0", "Proc2", "0"); addContainer (0.00000, "C_N1", "CT_NODE", "C_Net0", "Node1", "0"); addContainer (0.00000, "C_P3", "CT_PROC", "C_N1", "Proc3", "0"); addContainer (0.00000, "C_P4", "CT_PROC", "C_N1", "Proc4", "0"); addContainer (0.00000, "C_P5", "CT_PROC", "C_N1", "Proc5", "0"); setVar (0.0111742, "V_Mem", "C_N0", 1.0000000); setState (0.01120000, "ST_NodeState", "C_N1", "SN_1"); setState (0.02121000, "ST_NodeState", "C_N0", "SN_0"); setVar (0.0212742, "V_Mem", "C_N0", 2.0000000); setState (0.03122000, "ST_NodeState", "C_N1", "SN_2"); setState (0.04123000, "ST_NodeState", "C_N0", "SN_1"); setVar (0.0313742, "V_Mem", "C_N0", 3.0000000); setVar (0.0414742, "V_Mem", "C_N1", 1.0000000); setState (0.05124000, "ST_NodeState", "C_N1", "SN_0"); setVar (0.0515742, "V_Mem", "C_N1", 2.0000000); setState (0.06124500, "ST_NodeState", "C_N0", "SN_2"); setVar (0.0616742, "V_Mem", "C_N1", 3.0000000); setState (0.00130000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00140000, "ST_ProcState", "C_P1", "SP_3"); setState (0.00150000, "ST_ProcState", "C_P0", "SP_5"); setState (0.00160000, "ST_ProcState", "C_P3", "SP_5"); setState (0.00170000, "ST_ProcState", "C_P4", "SP_3"); setState (0.00180000, "ST_ProcState", "C_P5", "SP_4"); setState (0.00190000, "ST_ProcState", "C_P2", "SP_3"); setState (0.00200000, "ST_ProcState", "C_P3", "SP_4"); setState (0.00210000, "ST_ProcState", "C_P1", "SP_4"); setState (0.00230000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00330000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00430000, "ST_ProcState", "C_P5", "SP_4"); setState (0.00530000, "ST_ProcState", "C_P4", "SP_5"); setState (0.00630000, "ST_ProcState", "C_P3", "SP_5"); setState (0.00730000, "ST_ProcState", "C_P2", "SP_5"); setState (0.00830000, "ST_ProcState", "C_P0", "SP_3"); setState (0.00930000, "ST_ProcState", "C_P1", "SP_3"); setState (0.01030000, "ST_ProcState", "C_P1", "SP_4"); setState (0.02130000, "ST_ProcState", "C_P2", "SP_4"); setState (0.03130000, "ST_ProcState", "C_P0", "SP_3"); setState (0.04130000, "ST_ProcState", "C_P3", "SP_3"); setState (0.05130000, "ST_ProcState", "C_P0", "SP_4"); setState (0.06130000, "ST_ProcState", "C_P5", "SP_5"); setState (0.07130000, "ST_ProcState", "C_P4", "SP_2"); setState (0.08130000, "ST_ProcState", "C_P2", "SP_4"); setState (0.09130000, "ST_ProcState", "C_P0", "SP_3"); startLink (0.020000, "L_0", "C_Net0", "C_P2", "C_P4", "12", "0"); startLink (0.030000, "L_1", "C_Net0", "C_P4", "C_P2", "13", "1"); startLink (0.040000, "L_0", "C_Net0", "C_P0", "C_P5", "14", "2"); startLink (0.050000, "L_1", "C_Net0", "C_P3", "C_P1", "15", "3"); endLink (0.030000, "L_0", "C_Net0", "C_P2", "C_P4", "12", "0"); endLink (0.040000, "L_1", "C_Net0", "C_P4", "C_P2", "13", "1"); endLink (0.050000, "L_0", "C_Net0", "C_P0", "C_P5", "14", "2"); endLink (0.060000, "L_1", "C_Net0", "C_P3", "C_P1", "15", "3"); addEvent (0.030000, "E_0", "C_P0", "11"); addEvent (0.050000, "E_0", "C_P2", "10"); addEvent (0.070000, "E_1", "C_P1", "1"); addEvent (0.090000, "E_1", "C_P5", "3"); endTrace (); return EXIT_SUCCESS; }