Ejemplo n.º 1
0
void 
comm_init()
{
  int i;
  
  static int firsttime=1;
  if (!firsttime){ 
    return;
  }
  firsttime = 0;

  gethostname(hostname, 128);  
  MPI_Comm_size(MPI_COMM_WORLD, &size);
  MPI_Comm_rank(MPI_COMM_WORLD, &rank);

  int gpus_per_node = getGpuCount();  

  comm_partition();

  back_nbr = (rank -1 + size)%size;
  fwd_nbr = (rank +1)%size;
  num_nodes=size / getGpuCount();
  if(num_nodes ==0) {
	num_nodes=1;
  }

  //determine which gpu this MPI process is going to use
  char* hostname_recv_buf = (char*)malloc(128*size);
  if(hostname_recv_buf == NULL){
    printf("ERROR: malloc failed for host_recv_buf\n");
    comm_exit(1);
  }
  
  gethostname(hostname, 128);
  int rc = MPI_Allgather(hostname, 128, MPI_CHAR, hostname_recv_buf, 128, MPI_CHAR, MPI_COMM_WORLD);
  if (rc != MPI_SUCCESS){
    printf("ERROR: MPI_Allgather failed for hostname\n");
    comm_exit(1);
  }

  which_gpu=0;
  for(i=0;i < size; i++){
    if (i == rank){
      break;
    }
    if (strncmp(hostname, hostname_recv_buf + 128*i, 128) == 0){
      which_gpu ++;
    }
  }
  
  if (which_gpu >= gpus_per_node){
    printf("ERROR: invalid gpu(%d) to use in rank=%d mpi process\n", which_gpu, rank);
    comm_exit(1);
  }
  
  srand(rank*999);
  
  free(hostname_recv_buf);
  return;
}
Ejemplo n.º 2
0
unsigned long
comm_recv(void* buf, int len, int src)
{
  MPI_Request* request = (MPI_Request*)malloc(sizeof(MPI_Request));
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }
  
  int srcproc=-1;
  int recvtag=99; //recvtag is opposite to the sendtag
  if (src == BACK_NBR){
    srcproc = back_nbr;
    recvtag = FWD_NBR;
  }else if (src == FWD_NBR){
    srcproc = fwd_nbr;
    recvtag = BACK_NBR;
  }else{
    printf("ERROR: invalid source\n");
    comm_exit(1);
  }
  
  MPI_Irecv(buf, len, MPI_BYTE, srcproc, recvtag, MPI_COMM_WORLD, request);
  
  return (unsigned long)request;
}
Ejemplo n.º 3
0
unsigned long
comm_send(void* buf, int len, int dst)
{
  
  MPI_Request* request = (MPI_Request*)malloc(sizeof(MPI_Request));
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }

  int dstproc;
  int sendtag=99;
  if (dst == BACK_NBR){
    dstproc = back_nbr;
    sendtag = BACK_NBR;
  }else if (dst == FWD_NBR){
    dstproc = fwd_nbr;
    sendtag = FWD_NBR;
  }else{
    printf("ERROR: invalid dest\n");
    comm_exit(1);
  }

  MPI_Isend(buf, len, MPI_BYTE, dstproc, sendtag, MPI_COMM_WORLD, request);  
  return (unsigned long)request;  
}
Ejemplo n.º 4
0
int find_neighbor_proc(int which) {
  int proc = -1;
  switch(which){
  case X_BACK_NBR:
    proc = x_back_nbr;
    break;
  case X_FWD_NBR:
    proc = x_fwd_nbr;
    break;
  case Y_BACK_NBR:
    proc = y_back_nbr;
    break;
  case Y_FWD_NBR:
    proc = y_fwd_nbr;
    break;
  case Z_BACK_NBR:
    proc = z_back_nbr;
    break;
  case Z_FWD_NBR:
    proc = z_fwd_nbr;
    break;
  case T_BACK_NBR:
    proc = t_back_nbr;
    break;
  case T_FWD_NBR:
    proc = t_fwd_nbr;
    break;
  default:
    printf("ERROR: invalid dest, line %d, file %s\n", __LINE__, __FILE__);
    comm_exit(1);
  }
  return proc;
}
Ejemplo n.º 5
0
int 
comm_dim_partitioned(int dir)
{
  int ret = 0;
  
  switch(dir){
  case 0: 
    ret = (xgridsize > 1);    
    break;
  case 1: 
    ret = (ygridsize > 1);
    break;
  case 2: 
    ret = (zgridsize > 1);
    break;
  case 3: 
    ret = (tgridsize > 1);
    break;    
  default:
    printf("ERROR: invalid direction\n");
    comm_exit(1);
  }
  
  if( manual_set_partition[dir]){
    ret = manual_set_partition[dir];
  }
  
  return ret;
}
Ejemplo n.º 6
0
unsigned long
comm_send_to_rank(void* buf, int len, int dst_rank)
{
  
  MPI_Request* request = (MPI_Request*)malloc(sizeof(MPI_Request));
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }
  
  if(dst_rank < 0 || dst_rank >= comm_size()){
    printf("ERROR: Invalid dst rank(%d)\n", dst_rank);
    comm_exit(1);
  }
  int sendtag = 99;
  MPI_Isend(buf, len, MPI_BYTE, dst_rank, sendtag, MPI_COMM_WORLD, request);  
  return (unsigned long)request;  
}
Ejemplo n.º 7
0
unsigned long
comm_send_with_tag(void* buf, int len, int dst, int tag)
{

  MPI_Request* request = (MPI_Request*)malloc(sizeof(MPI_Request));
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }

  int dstproc = -1;
  switch(dst){
  case X_BACK_NBR:
    dstproc = x_back_nbr;
    break;
  case X_FWD_NBR:
    dstproc = x_fwd_nbr;
    break;
  case Y_BACK_NBR:
    dstproc = y_back_nbr;
    break;
  case Y_FWD_NBR:
    dstproc = y_fwd_nbr;
    break;
  case Z_BACK_NBR:
    dstproc = z_back_nbr;
    break;
  case Z_FWD_NBR:
    dstproc = z_fwd_nbr;
    break;
  case T_BACK_NBR:
    dstproc = t_back_nbr;
    break;
  case T_FWD_NBR:
    dstproc = t_fwd_nbr;
    break;
  default:
    printf("ERROR: invalid dest, line %d, file %s\n", __LINE__, __FILE__);
    comm_exit(1);
  }

  MPI_Isend(buf, len, MPI_BYTE, dstproc, tag, MPI_COMM_WORLD, request);
  return (unsigned long)request;
}
Ejemplo n.º 8
0
unsigned long
comm_recv_with_tag(void* buf, int len, int src, int tag, void* _request)
{ 
  MPI_Request* request = (MPI_Request*)_request;
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }
  
  int srcproc=-1;
  switch (src){
  case X_BACK_NBR:
    srcproc = x_back_nbr;
    break;
  case X_FWD_NBR:
    srcproc = x_fwd_nbr;
    break;
  case Y_BACK_NBR:
    srcproc = y_back_nbr;
    break;
  case Y_FWD_NBR:
    srcproc = y_fwd_nbr;
    break;
  case Z_BACK_NBR:
    srcproc = z_back_nbr;
    break;
  case Z_FWD_NBR:
    srcproc = z_fwd_nbr;
    break;
  case T_BACK_NBR:
    srcproc = t_back_nbr;
    break;
  case T_FWD_NBR:
    srcproc = t_fwd_nbr;
    break;
  default:
    printf("ERROR: invalid source, line %d, file %s\n", __LINE__, __FILE__);
    comm_exit(1);
  }
  MPI_Irecv(buf, len, MPI_BYTE, srcproc, tag, MPI_COMM_WORLD, request);
  
  return (unsigned long)request;
}
Ejemplo n.º 9
0
void comm_start(void *request)
{
  int rc = MPI_Start( (MPI_Request*)request);
  if (rc != MPI_SUCCESS) {
    printf("ERROR: MPI_Test failed\n");
    comm_exit(1);
  }

  return;
}
Ejemplo n.º 10
0
Archivo: p2.c Proyecto: fpozzas/fic
int procesar(char ** trozos){
    if (trozos[0]==NULL) return 0;
    else if (strcmp(trozos[0],"exit")==0) comm_exit();
    else if (strcmp(trozos[0],"quit")==0) comm_exit();
    else if (strcmp(trozos[0],"autores")==0) comm_autores();
    else if (strcmp(trozos[0],"chdir")==0) comm_chdir(trozos);
    else if (strcmp(trozos[0],"prompt")==0) comm_prompt(trozos);
    else if (strcmp(trozos[0],"pid")==0) comm_pid(trozos);
    else if (strcmp(trozos[0],"fork")==0) comm_fork();
    else if (strcmp(trozos[0],"malloc")==0) comm_malloc(trozos);
	else if (strcmp(trozos[0],"display")==0) comm_display(trozos);
	else if (strcmp(trozos[0],"free")==0) comm_free(trozos);
	else if (strcmp(trozos[0],"stat")==0) comm_stat(trozos);
	else if (strcmp(trozos[0],"delete")==0) comm_delete(trozos);	
	else if (strcmp(trozos[0],"list")==0) comm_list(trozos);	
	else if (strcmp(trozos[0],"mmap")==0) comm_mmap(trozos);	
	else if (strcmp(trozos[0],"munmap")==0) comm_munmap(trozos);	
	else if (strcmp(trozos[0],"read")==0) comm_read(trozos);	
	else if (strcmp(trozos[0],"write")==0) comm_write(trozos);	
	else if (strcmp(trozos[0],"rec")==0) comm_rec(trozos);	
	else if (strcmp(trozos[0],"shared-creat")==0) comm_sharedcreat(trozos);	
	else if (strcmp(trozos[0],"shared-del")==0) comm_shareddel(trozos);	
	else if (strcmp(trozos[0],"detach")==0) comm_detach(trozos);	
	else if (strcmp(trozos[0],"shared-info")==0) comm_sharedinfo(trozos);	
 	else if (strcmp(trozos[0],"shared-cp")==0) comm_sharedcp(trozos);	
 	else if (strcmp(trozos[0],"shared-rm")==0) comm_sharedrm(trozos[1]);	
 	else if (strcmp(trozos[0],"direcciones")==0) comm_direcciones(trozos);	
 	else if (strcmp(trozos[0],"shared-mv")==0){
 		if (trozos[1]==NULL) {printf("Numero de parametros incorrectos.\n"); return -1;}
 		char arg[strlen(trozos[1])];
 		strcpy(arg,trozos[1]);
 		if ((comm_sharedcp(trozos))==0)
 			comm_sharedrm(arg);
 	}
 	// Comandos de p2
 	else if (strcmp(trozos[0],"path")==0) comm_path(trozos);	
 	else if (strcmp(trozos[0],"exec")==0) comm_exec(trozos+1);	
 	else if (strcmp(trozos[0],"getpriority")==0) comm_getpriority(trozos);	
 	else if (strcmp(trozos[0],"setpriority")==0) comm_setpriority(trozos);	
 	else if (strcmp(trozos[0],"jobs")==0) comm_jobs(trozos,IMPRIMIR); 	
	else if (strcmp(trozos[0],"cleanjobs")==0) comm_jobs(trozos,BORRAR);
	else comm_com(trozos);
}
Ejemplo n.º 11
0
void lp_exit(lp_prob *p)
{
   int s_bufid;

   s_bufid = init_send(DataInPlace);
   send_msg(p->tree_manager, SOMETHING_DIED);
   freebuf(s_bufid);
   comm_exit();
   exit(-1);
}
Ejemplo n.º 12
0
unsigned long
comm_recv_from_rank(void* buf, int len, int src_rank)
{
  MPI_Request* request = (MPI_Request*)malloc(sizeof(MPI_Request));
  if (request == NULL){
    printf("ERROR: malloc failed for mpi request\n");
    comm_exit(1);
  }
  
  if(src_rank < 0 || src_rank >= comm_size()){
    printf("ERROR: Invalid src rank(%d)\n", src_rank);
    comm_exit(1);
  }
  
  int recvtag = 99;
  MPI_Irecv(buf, len, MPI_BYTE, src_rank, recvtag, MPI_COMM_WORLD, request);
  
  return (unsigned long)request;
}
Ejemplo n.º 13
0
void 
comm_allreduce_int(int* data)
{
  int recvbuf;
  int rc = MPI_Allreduce(data, &recvbuf, 1, MPI_INT, MPI_SUM, MPI_COMM_WORLD);
  if(rc!=MPI_SUCCESS){
    printf("ERROR: MPI_Allreduce failed\n");
    comm_exit(1); 
  }
  *data = recvbuf;
  return;
}
Ejemplo n.º 14
0
/**
 * 清理窗口管理器
 * 就不写注释了 函数名写的已经很明白。。
 **/
si_t window_manager_exit()
{
	application_exit();
	cursor_exit();
	graph_exit();
	comm_exit();
	event_exit();
	config_exit();
	terminal_exit();

	return 0;
}
Ejemplo n.º 15
0
int comm_query(void* request) 
{
  MPI_Status status;
  int query;
  int rc = MPI_Test( (MPI_Request*)request, &query, &status);
  if (rc != MPI_SUCCESS) {
    printf("ERROR: MPI_Test failed\n");
    comm_exit(1);
  }

  return query;
}
Ejemplo n.º 16
0
//this request should be some return value from comm_recv
void 
comm_wait(void* request)
{
  
  MPI_Status status;
  int rc = MPI_Wait( (MPI_Request*)request, &status);
  if (rc != MPI_SUCCESS){
    printf("ERROR: MPI_Wait failed\n");
    comm_exit(1);
  }
  
  return;
}
Ejemplo n.º 17
0
//we always reduce one double value
void
comm_allreduce_max(double* data)
{
  double recvbuf;
  int rc = MPI_Allreduce ( data, &recvbuf,1,MPI_DOUBLE, MPI_MAX, MPI_COMM_WORLD);
  if (rc != MPI_SUCCESS){
    printf("ERROR: MPI_Allreduce failed\n");
    comm_exit(1);
  }
  
  *data = recvbuf;
  
  return;
} 
Ejemplo n.º 18
0
//reduce n double value
void
comm_allreduce_array(double* data, size_t size)
{
  double recvbuf[size];
  int rc = MPI_Allreduce ( data, &recvbuf,size,MPI_DOUBLE, MPI_SUM, MPI_COMM_WORLD);
  if (rc != MPI_SUCCESS){
    printf("ERROR: MPI_Allreduce failed\n");
    comm_exit(1);
  }
  
  memcpy(data, recvbuf, sizeof(recvbuf));
  
  return;
}
Ejemplo n.º 19
0
unsigned long
comm_send_to_rank(void* buf, int len, int dst_rank, void* _request)
{
  
  MPI_Request* request = (MPI_Request*)_request;
  
  if(dst_rank < 0 || dst_rank >= comm_size()){
    printf("ERROR: Invalid dst rank(%d)\n", dst_rank);
    comm_exit(1);
  }
  int sendtag = 99;
  MPI_Isend(buf, len, MPI_BYTE, dst_rank, sendtag, MPI_COMM_WORLD, request);  
  return (unsigned long)request;  
}
Ejemplo n.º 20
0
unsigned long
comm_recv_from_rank(void* buf, int len, int src_rank, void* _request)
{
  MPI_Request* request = (MPI_Request*)_request;
  
  if(src_rank < 0 || src_rank >= comm_size()){
    printf("ERROR: Invalid src rank(%d)\n", src_rank);
    comm_exit(1);
  }
  
  int recvtag = 99;
  MPI_Irecv(buf, len, MPI_BYTE, src_rank, recvtag, MPI_COMM_WORLD, request);
  
  return (unsigned long)request;
}
Ejemplo n.º 21
0
int
comm_coords(int dir) {

  int i;
  switch(dir) {
  case 0:
    i = xgridid;
    break;
  case 1:
    i = ygridid;
    break;
  case 2:
    i = zgridid;
    break;
  case 3:
    i = tgridid;
    break;
  default:
    printf("Cannot get direction %d", dir);
    comm_exit(1);
  }

  return i;
}
Ejemplo n.º 22
0
static void
comm_partition(void)
{
  /*
  printf("xgridsize=%d\n", xgridsize);
  printf("ygridsize=%d\n", ygridsize);
  printf("zgridsize=%d\n", zgridsize);
  printf("tgridsize=%d\n", tgridsize);
  */
  if(xgridsize*ygridsize*zgridsize*tgridsize != size){
    if (rank ==0){
      printf("ERROR: Invalid configuration (t,z,y,x gridsize=%d %d %d %d) "
             "but # of MPI processes is %d\n", tgridsize, zgridsize, ygridsize, xgridsize, size);
    }
    comm_exit(1);
  }

  int leftover;

#if 0
  tgridid  = rank/(zgridsize*ygridsize*xgridsize);
  leftover = rank%(zgridsize*ygridsize*xgridsize);
  zgridid  = leftover/(ygridsize*xgridsize);
  leftover = leftover%(ygridsize*xgridsize);
  ygridid  = leftover/xgridsize;
  xgridid  = leftover%xgridsize;
  #define GRID_ID(xid,yid,zid,tid) (tid*zgridsize*ygridsize*xgridsize+zid*ygridsize*xgridsize+yid*xgridsize+xid)
#else

  xgridid  = rank/(ygridsize*zgridsize*tgridsize);
  leftover = rank%(ygridsize*zgridsize*tgridsize);
  ygridid  = leftover/(zgridsize*tgridsize);
  leftover = leftover%(zgridsize*tgridsize);
  zgridid  = leftover/tgridsize;
  tgridid  = leftover%tgridsize;  
#define GRID_ID(xid,yid,zid,tid) (xid*ygridsize*zgridsize*tgridsize+yid*zgridsize*tgridsize+zid*tgridsize+tid)
#endif
  printf("My rank: %d, gridid(t,z,y,x): %d %d %d %d\n", rank, tgridid, zgridid, ygridid, xgridid);


  int xid, yid, zid, tid;
  //X direction neighbors
  yid =ygridid;
  zid =zgridid;
  tid =tgridid;
  xid=(xgridid +1)%xgridsize;
  x_fwd_nbr = GRID_ID(xid,yid,zid,tid);
  xid=(xgridid -1+xgridsize)%xgridsize;
  x_back_nbr = GRID_ID(xid,yid,zid,tid);

  //Y direction neighbors
  xid =xgridid;
  zid =zgridid;
  tid =tgridid;
  yid =(ygridid+1)%ygridsize;
  y_fwd_nbr = GRID_ID(xid,yid,zid,tid);
  yid=(ygridid -1+ygridsize)%ygridsize;
  y_back_nbr = GRID_ID(xid,yid,zid,tid);

  //Z direction neighbors
  xid =xgridid;
  yid =ygridid;
  tid =tgridid;
  zid =(zgridid+1)%zgridsize;
  z_fwd_nbr = GRID_ID(xid,yid,zid,tid);
  zid=(zgridid -1+zgridsize)%zgridsize;
  z_back_nbr = GRID_ID(xid,yid,zid,tid);

  //T direction neighbors
  xid =xgridid;
  yid =ygridid;
  zid =zgridid;
  tid =(tgridid+1)%tgridsize;
  t_fwd_nbr = GRID_ID(xid,yid,zid,tid);
  tid=(tgridid -1+tgridsize)%tgridsize;
  t_back_nbr = GRID_ID(xid,yid,zid,tid);

  printf("MPI rank: rank=%d, hostname=%s, x_fwd_nbr=%d, x_back_nbr=%d\n", rank, hostname, x_fwd_nbr, x_back_nbr);
  printf("MPI rank: rank=%d, hostname=%s, y_fwd_nbr=%d, y_back_nbr=%d\n", rank, hostname, y_fwd_nbr, y_back_nbr);
  printf("MPI rank: rank=%d, hostname=%s, z_fwd_nbr=%d, z_back_nbr=%d\n", rank, hostname, z_fwd_nbr, z_back_nbr);
  printf("MPI rank: rank=%d, hostname=%s, t_fwd_nbr=%d, t_back_nbr=%d\n", rank, hostname, t_fwd_nbr, t_back_nbr);

  
}
Ejemplo n.º 23
0
int main(int argc, char **argv) {
	cl_options_t cl_options = {0};

	dbg_init();
	DBG_LOG("Version %s", g_version);

	ui = &ui_sdlgl;

	printf("DreamChess %s\n", g_version);

	parse_options(argc, argv, &ui, &cl_options);
	config_init();
	set_cl_options(&cl_options);

	if (!ui) {
		DBG_ERROR("Failed to find a user interface driver");
		exit(1);
	}

	ui->init();

	init_resolution();

	while (1) {
		board_t board;
		int pgn_slot;
		option_t *option;

		if (!(config = ui->config(&pgn_slot)))
			break;

		ch_userdir();
		option = config_get_option("first_engine");

#ifdef __APPLE__
		char temp1[200];
		char temp2[200];

		if (!strcmp(option->string, "dreamer") || !strcmp(option->string, "Dreamer")) {
			CFBundleRef mainBundle = CFBundleGetMainBundle();

			CFURLRef bundledir = CFBundleCopyBundleURL(mainBundle);
			CFStringRef stringref = CFURLCopyFileSystemPath(bundledir, kCFURLPOSIXPathStyle);
			CFStringGetCString(stringref, temp1, 200, kCFStringEncodingMacRoman);

			snprintf(temp2, sizeof(temp2), "%s/contents/MacOS/dreamer", temp1);

			game_set_engine_error(comm_init(temp2));
		} else
			game_set_engine_error(comm_init(option->string));
#else
		game_set_engine_error(comm_init(option->string));
#endif

		comm_send("xboard\n");

		comm_send("new\n");
		comm_send("random\n");

		comm_send("sd %i\n", config->cpu_level);
		comm_send("depth %i\n", config->cpu_level);

		if (config->difficulty == 0)
			comm_send("noquiesce\n");

		if (config->player[WHITE] == PLAYER_UI && config->player[BLACK] == PLAYER_UI)
			comm_send("force\n");

		if (config->player[WHITE] == PLAYER_ENGINE)
			comm_send("go\n");

		in_game = 1;
		board_setup(&board);
		history = history_init(&board);
		move_list_init(&san_list);
		move_list_init(&fan_list);
		move_list_init(&fullalg_list);

		if (pgn_slot >= 0)
			if (game_load(pgn_slot)) {
				DBG_ERROR("Failed to load savegame in slot %i", pgn_slot);
				exit(1);
			}

		ui->update(history->view->board, NULL);
		while (in_game) {
			char *s;

			if ((s = comm_poll())) {
				DBG_LOG("Message from engine: '%s'", s);
				if (!history->result) {
					if ((!strncmp(s, "move ", 4) || strstr(s, "... ")) &&
						config->player[history->last->board->turn] == PLAYER_ENGINE) {
						char *move_str = strrchr(s, ' ') + 1;
						board_t new_board = *history->last->board;
						move_t *engine_move;

						DBG_LOG("Parsing move string '%s'", move_str);

						engine_move = san_to_move(&new_board, move_str);
						if (!engine_move)
							engine_move = fullalg_to_move(&new_board, move_str);
						if (engine_move) {
							audio_play_sound(AUDIO_MOVE);
							do_move(engine_move, 1);
							free(engine_move);
						} else
							DBG_ERROR("Failed to parse move string '%s'", move_str);
					} else if (strstr(s, "llegal move"))
						game_undo();
					/* Ignore result message if we've already determined a result ourselves. */
					else {
						char *start = strchr(s, '{');
						char *end = strchr(s, '}');

						if (start && end && end > start) {
							char *comment = malloc(end - start);
							history->result = malloc(sizeof(result_t));
							strncpy(comment, start + 1, end - start - 1);
							comment[end - start - 1] = '\0';
							history->result->reason = comment;
							if (strstr(s, "1-0")) {
								history->result->code = RESULT_WHITE_WINS;
								ui->show_result(history->result);
							} else if (strstr(s, "1/2-1/2")) {
								history->result->code = RESULT_DRAW;
								ui->show_result(history->result);
							} else if (strstr(s, "0-1")) {
								history->result->code = RESULT_BLACK_WINS;
								ui->show_result(history->result);
							} else {
								free(history->result->reason);
								free(history->result);
								history->result = NULL;
							}
						}
					}
				}

				free(s);
			}
			ui->poll();
		}
		comm_send("quit\n");
		comm_exit();
		history_exit(history);
		move_list_exit(&san_list);
		move_list_exit(&fan_list);
		move_list_exit(&fullalg_list);
	}
	ui->exit();
	dbg_exit();
	return 0;
}