static int update_new_share(struct share_data *data)
{
char sql[512];
uint64_t effect = 0;
if (data->times == 0)
insert_new_record(data->server_id, data->player_id);
sprintf(sql, "update `share` set `last_share_time` = now(), `share_times` = %d where `server_id` = %s and `player_id` = %s",
data->times + 1, data->server_id, data->player_id);
query(sql, 1, &effect);
if (effect != 1) {
return (-1);
}
return (0);
}
int main(int argc, char *argv[])
{
struct Map_info In, Out;
static struct line_pnts *Points;
struct line_cats *Cats;
struct GModule *module; /* GRASS module for parsing arguments */
struct Option *map_in, *map_out;
struct Option *method_opt, *afield_opt, *nfield_opt, *abcol,
*afcol, *ncol;
struct Flag *add_f;
int with_z;
int afield, nfield, mask_type;
dglGraph_s *graph;
int *component, nnodes, type, i, nlines, components, max_cat;
char buf[2000], *covered;
char *desc;
/* Attribute table */
dbString sql;
dbDriver *driver;
struct field_info *Fi;
/* initialize GIS environment */
G_gisinit(argv[0]); /* reads grass env, stores program name to G_program_name() */
/* initialize module */
module = G_define_module();
G_add_keyword(_("vector"));
G_add_keyword(_("network"));
G_add_keyword(_("components"));
module->description =
_("Computes strongly and weakly connected components in the network.");
/* Define the different options as defined in gis.h */
map_in = G_define_standard_option(G_OPT_V_INPUT);
afield_opt = G_define_standard_option(G_OPT_V_FIELD);
afield_opt->key = "arc_layer";
afield_opt->answer = "1";
afield_opt->label = _("Arc layer");
afield_opt->guisection = _("Cost");
nfield_opt = G_define_standard_option(G_OPT_V_FIELD);
nfield_opt->key = "node_layer";
nfield_opt->answer = "2";
nfield_opt->label = _("Node layer");
nfield_opt->guisection = _("Cost");
afcol = G_define_standard_option(G_OPT_DB_COLUMN);
afcol->key = "arc_column";
afcol->required = NO;
afcol->description =
_("Arc forward/both direction(s) cost column (number)");
afcol->guisection = _("Cost");
abcol = G_define_standard_option(G_OPT_DB_COLUMN);
abcol->key = "arc_backward_column";
abcol->required = NO;
abcol->description = _("Arc backward direction cost column (number)");
abcol->guisection = _("Cost");
ncol = G_define_option();
ncol->key = "node_column";
ncol->type = TYPE_STRING;
ncol->required = NO;
ncol->description = _("Node cost column (number)");
ncol->guisection = _("Cost");
map_out = G_define_standard_option(G_OPT_V_OUTPUT);
method_opt = G_define_option();
method_opt->key = "method";
method_opt->type = TYPE_STRING;
method_opt->required = YES;
method_opt->multiple = NO;
method_opt->options = "weak,strong";
desc = NULL;
G_asprintf(&desc,
"weak;%s;strong;%s",
_("Weakly connected components"),
_("Strongly connected components"));
method_opt->descriptions = desc;
method_opt->description = _("Type of components");
add_f = G_define_flag();
add_f->key = 'a';
add_f->description = _("Add points on nodes");
/* options and flags parser */
if (G_parser(argc, argv))
exit(EXIT_FAILURE);
/* TODO: make an option for this */
mask_type = GV_LINE | GV_BOUNDARY;
Points = Vect_new_line_struct();
Cats = Vect_new_cats_struct();
Vect_check_input_output_name(map_in->answer, map_out->answer,
G_FATAL_EXIT);
Vect_set_open_level(2);
if (1 > Vect_open_old(&In, map_in->answer, ""))
G_fatal_error(_("Unable to open vector map <%s>"), map_in->answer);
with_z = Vect_is_3d(&In);
if (0 > Vect_open_new(&Out, map_out->answer, with_z)) {
Vect_close(&In);
G_fatal_error(_("Unable to create vector map <%s>"), map_out->answer);
}
/* parse filter option and select appropriate lines */
afield = Vect_get_field_number(&In, afield_opt->answer);
nfield = Vect_get_field_number(&In, nfield_opt->answer);
if (0 != Vect_net_build_graph(&In, mask_type, afield, nfield, afcol->answer,
abcol->answer, ncol->answer, 0, 2))
G_fatal_error(_("Unable to build graph for vector map <%s>"), Vect_get_full_name(&In));
graph = Vect_net_get_graph(&In);
nnodes = Vect_get_num_nodes(&In);
component = (int *)G_calloc(nnodes + 1, sizeof(int));
covered = (char *)G_calloc(nnodes + 1, sizeof(char));
if (!component || !covered) {
G_fatal_error(_("Out of memory"));
exit(EXIT_FAILURE);
}
/* Create table */
Fi = Vect_default_field_info(&Out, 1, NULL, GV_1TABLE);
Vect_map_add_dblink(&Out, 1, NULL, Fi->table, GV_KEY_COLUMN, Fi->database,
Fi->driver);
db_init_string(&sql);
driver = db_start_driver_open_database(Fi->driver, Fi->database);
if (driver == NULL)
G_fatal_error(_("Unable to open database <%s> by driver <%s>"),
Fi->database, Fi->driver);
sprintf(buf, "create table %s ( cat integer, comp integer)", Fi->table);
db_set_string(&sql, buf);
G_debug(2, "%s", db_get_string(&sql));
if (db_execute_immediate(driver, &sql) != DB_OK) {
db_close_database_shutdown_driver(driver);
G_fatal_error(_("Unable to create table: '%s'"), db_get_string(&sql));
}
if (db_create_index2(driver, Fi->table, GV_KEY_COLUMN) != DB_OK)
G_warning(_("Cannot create index"));
if (db_grant_on_table
(driver, Fi->table, DB_PRIV_SELECT, DB_GROUP | DB_PUBLIC) != DB_OK)
G_fatal_error(_("Cannot grant privileges on table <%s>"), Fi->table);
db_begin_transaction(driver);
if (method_opt->answer[0] == 'w') {
G_message(_("Computing weakly connected components..."));
components = NetA_weakly_connected_components(graph, component);
}
else {
G_message(_("Computing strongly connected components..."));
components = NetA_strongly_connected_components(graph, component);
}
G_debug(3, "Components: %d", components);
G_message(_("Writing output..."));
Vect_copy_head_data(&In, &Out);
Vect_hist_copy(&In, &Out);
Vect_hist_command(&Out);
nlines = Vect_get_num_lines(&In);
max_cat = 1;
G_percent(0, nlines, 4);
for (i = 1; i <= nlines; i++) {
int comp, cat;
G_percent(i, nlines, 4);
type = Vect_read_line(&In, Points, Cats, i);
if (!Vect_cat_get(Cats, afield, &cat))
continue;
if (type == GV_LINE || type == GV_BOUNDARY) {
int node1, node2;
Vect_get_line_nodes(&In, i, &node1, &node2);
if (component[node1] == component[node2]) {
comp = component[node1];
}
else {
continue;
}
}
else if (type == GV_POINT) {
int node;
/* Vect_get_line_nodes(&In, i, &node, NULL); */
node = Vect_find_node(&In, Points->x[0], Points->y[0], Points->z[0], 0, 0);
if (!node)
continue;
comp = component[node];
covered[node] = 1;
}
else
continue;
cat = max_cat++;
Vect_reset_cats(Cats);
Vect_cat_set(Cats, 1, cat);
Vect_write_line(&Out, type, Points, Cats);
insert_new_record(driver, Fi, &sql, cat, comp);
}
/*add points on nodes not covered by any point in the network */
if (add_f->answer) {
for (i = 1; i <= nnodes; i++)
if (!covered[i]) {
Vect_reset_cats(Cats);
Vect_cat_set(Cats, 1, max_cat);
NetA_add_point_on_node(&In, &Out, i, Cats);
insert_new_record(driver, Fi, &sql, max_cat++, component[i]);
}
}
db_commit_transaction(driver);
db_close_database_shutdown_driver(driver);
Vect_close(&In);
Vect_build(&Out);
Vect_close(&Out);
G_done_msg(_("Found %d components."), components);
exit(EXIT_SUCCESS);
}
