* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
-#define _GNU_SOURCE
+#include "config.h"
#include <unistd.h>
#include <string.h>
#include <math.h>
#include <glib.h>
#include <glib/gstdio.h>
+#include <glib/gi18n.h>
#include <gtk/gtk.h>
#include <sqlite3.h>
#include "osm.h"
#include "latlon.h"
-#include "gps.h"
#include "osm-db.h"
+#include "settings.h"
/* #define DEBUG_OSM */
/* #define DEBUG_OSM_TIME */
#define OSM_PLACE_CACHE_MAX_ITEMS (64)
-#define OSM_DB_PROGRESS_NUM (20000)
+#define OSM_DB_PROGRESS_NUM (15000)
/* Node search ranges */
#define OSM_RANGE_START (16384)
#define OSM_RANGE_STOP (65535)
static sqlite3 *osmdb;
+static gboolean osm_db_ok;
struct sql_select_stmt {
sqlite3_stmt *select_way;
sqlite3_stmt *select_way_nodes;
sqlite3_stmt *select_way_name;
sqlite3_stmt *select_way_name_nls;
+ sqlite3_stmt *select_way_name_search;
sqlite3_stmt *select_way_ref;
sqlite3_stmt *select_place;
- sqlite3_stmt *select_near_place;
+ sqlite3_stmt *select_place_near;
+ sqlite3_stmt *select_place_search;
+
+ sqlite3_stmt *select_node_next;
+ sqlite3_stmt *select_node_prev;
};
static struct sql_select_stmt sql;
static GTimer *dbt;
static GtkProgressBar *dbpw=NULL;
/* Cache hash tables */
-static GHashTable *place_cache;
+struct osm_place_cache {
+ GHashTable *cache;
+ guint hit;
+ guint miss;
+};
+static struct osm_place_cache pcache;
static guint way_dist_range=OSM_RANGE_WAY;
+static gint sid=0;
osm_way_node *osm_way_get_prev_node(osm_way *w);
osm_way_node *osm_way_get_next_node(osm_way *w);
osm_set_way_range_from_speed(gfloat speed)
{
if (speed>54.0)
- way_dist_range=OSM_RANGE_WAY*2;
+ way_dist_range=OSM_RANGE_WAY;
else
way_dist_range=OSM_RANGE_WAY-lrint((speed/4)*1000);
}
/*****************************************************************************/
-static int
-osm_progress(void *ud)
+static gboolean
+osm_progress_pulse(void)
{
if (!dbpw)
- return 0;
+ return FALSE;
gtk_progress_bar_pulse(dbpw);
+return TRUE;
+}
+
+static int
+osm_progress(void *ud)
+{
gtk_main_iteration_do(FALSE);
return 0;
}
if (!dbpw)
return;
gtk_progress_bar_set_text(dbpw, _("Searching..."));
+gtk_progress_bar_pulse(dbpw);
+gtk_main_iteration_do(FALSE);
sqlite3_progress_handler(db, OSM_DB_PROGRESS_NUM, osm_progress, NULL);
}
void
osm_progress_set_widget(sqlite3 *db, GtkProgressBar *w)
{
-if (dbpw!=NULL && w==NULL)
+if (dbpw!=NULL && w==NULL) {
osm_progress_hide(db);
+ if (sid!=0)
+ g_source_remove(sid);
+ sid=0;
+ dbpw=NULL;
+ return;
+}
dbpw=w;
-if (w!=NULL)
+if (w!=NULL) {
osm_progress_show(db);
+ sid=g_timeout_add(200, osm_progress_pulse, NULL);
+}
}
/*****************************************************************************/
gboolean
osm_db_prepare(sqlite3 *db)
{
-/* Place */
/* Select nearest place inside lat,lon+-range */
-if (sqlite3_prepare_v2(db, "select name,(($LAT-lat)*($LAT-lat))+(($LON-lon)*($LON-lon)) as dist,"
- " lat,lon,places.nid,isin "
+if (sqlite3_prepare_v2(db, "select name,(($LAT-ilat)*($LAT-ilat))+(($LON-ilon)*($LON-ilon)) as d,"
+ " ilat,ilon,places.nid,isin_p,isin_c "
" from places,nodes where type=$TYPE "
" and nodes.nid=places.nid "
- " and lat between $LAT-$RANGE and $LAT+$RANGE"
- " and lon between $LON-$RANGE and $LON+$RANGE order by dist limit 1",
- -1, &sql.select_near_place, NULL)!=SQLITE_OK)
+ " and ilat between $LAT-$RANGE and $LAT+$RANGE"
+ " and ilon between $LON-$RANGE and $LON+$RANGE order by d limit 1",
+ -1, &sql.select_place_near, NULL)!=SQLITE_OK)
return FALSE;
/* Select place name, distance, location, parent-place and type with given ID */
-if (sqlite3_prepare_v2(db, "select name,(($LAT-lat)*($LAT-lat))+(($LON-lon)*($LON-lon)) as dist,"
- " lat,lon,type,isin "
+if (sqlite3_prepare_v2(db, "select name,(($LAT-ilat)*($LAT-ilat))+(($LON-ilon)*($LON-ilon)) as d,"
+ " ilat,ilon,type,isin_p,isin_c "
" from places,nodes where "
" nodes.nid=places.nid "
- " and places.nid=$NID order by dist limit 1",
+ " and places.nid=$NID order by d limit 1",
-1, &sql.select_place, NULL)!=SQLITE_OK)
return FALSE;
+/* Search */
+if (sqlite3_prepare_v2(db, "select places.nid,name,(($LAT-ilat)*($LAT-ilat))+(($LON-ilon)*($LON-ilon)) as d,"
+ " rlat,rlon,type,isin_p,isin_c "
+ " from places,nodes where "
+ " nodes.nid=places.nid "
+ " and name like $NAME order by d limit 200",
+ -1, &sql.select_place_search, NULL)!=SQLITE_OK)
+ return FALSE;
+
/* Ways */
-/* Select neareset ways inside lat,lon+-range */
-if (sqlite3_prepare_v2(db, "select wid,type,nodes,flags,"
- "(($LAT-lat)*($LAT-lat))+(($LON-lon)*($LON-lon)) as d,wn.f,wn.t,n.lat,n.lon "
+/* Select nearest ways inside lat,lon+-range */
+if (sqlite3_prepare_v2(db, "select w.wid,type,nodes,flags,"
+ "(($LAT-n.ilat)*($LAT-n.ilat))+(($LON-n.ilon)*($LON-n.ilon)) as d,wn.f,wn.t,n.ilat,n.ilon "
" from way as w,way_n2n as wn,nodes as n "
- " where w.wid=wn.wsid and wn.f=n.nid "
- " and n.lat between $LAT-$RANGE and $LAT+$RANGE "
- " and n.lon between $LON-$RANGE and $LON+$RANGE "
+ " where w.wid=wn.wid and wn.f=n.nid "
+ " and n.ilat between $LAT-$RANGE and $LAT+$RANGE "
+ " and n.ilon between $LON-$RANGE and $LON+$RANGE "
" and w.type between $WTS and $WTY "
" order by d",
-1, &sql.select_way2, NULL)!=SQLITE_OK)
return FALSE;
-if (sqlite3_prepare_v2(db, "select wn.t,lat,lon from way_n2n as wn,nodes where wsid=? and wn.f=? and wn.t=nodes.nid limit 1",
+if (sqlite3_prepare_v2(db, "select w.wid,w.name as name,"
+ "(($LAT-ww.lat)*($LAT-ww.lat))+(($LON-ww.lon)*($LON-ww.lon)) as d,ww.lat,ww.lon "
+ " from way_names as w,way as ww where "
+ " ww.type between $WTS and $WTY and w.wid=ww.wid and w.name like $NAME "
+ " and ww.lat between $LAT-$RANGE and $LAT+$RANGE "
+ " and ww.lon between $LON-$RANGE and $LON+$RANGE "
+ " union "
+ " select w.wid,n.name as name,"
+ "(($LAT-ww.lat)*($LAT-ww.lat))+(($LON-ww.lon)*($LON-ww.lon)) as d,ww.lat,ww.lon "
+ " from way_names as w, way as ww,way_names_nls as n on w.wid=n.wid where "
+ " ww.type between $WTS and $WTY and w.wid=ww.wid and n.name like $NAME "
+ " and ww.lat between $LAT-$RANGE and $LAT+$RANGE "
+ " and ww.lon between $LON-$RANGE and $LON+$RANGE "
+ " order by name limit 200",
+ -1, &sql.select_way_name_search, NULL)!=SQLITE_OK)
+ return FALSE;
+
+if (sqlite3_prepare_v2(db, "select wn.t,ilat,ilon from way_n2n as wn,nodes where wid=? and wn.f=? and wn.t=nodes.nid limit 1",
-1, &sql.select_way_next_seg, NULL)!=SQLITE_OK)
return FALSE;
-if (sqlite3_prepare_v2(db, "select wn.f,lat,lon from way_n2n as wn,nodes where wsid=? and wn.t=? and wn.f=nodes.nid limit 1",
+if (sqlite3_prepare_v2(db, "select wn.f,ilat,ilon from way_n2n as wn,nodes where wid=? and wn.t=? and wn.f=nodes.nid limit 1",
-1, &sql.select_way_prev_seg, NULL)!=SQLITE_OK)
return FALSE;
/* Way name */
-if (sqlite3_prepare_v2(db, "select name from way_names where wid=?",
- -1, &sql.select_way_name, NULL)!=SQLITE_OK)
- return FALSE;
-#if 0
-if (sqlite3_prepare_v2(db, "select name from way_names_nls where wid=? and lang=?",
- -1, &sql.select_way_name, NULL)!=SQLITE_OK)
+if (sqlite3_prepare_v2(db, "select name from way_names where wid=?", -1, &sql.select_way_name, NULL)!=SQLITE_OK)
return FALSE;
-#endif
/* Way ref and int_ref */
-if (sqlite3_prepare_v2(db, "select ref,int_ref from way_ref where rid=?",
- -1, &sql.select_way_ref, NULL)!=SQLITE_OK)
+if (sqlite3_prepare_v2(db, "select ref,int_ref from way_ref where rid=?", -1, &sql.select_way_ref, NULL)!=SQLITE_OK)
+ return FALSE;
+
+/* Get next, prev node + way information. For routing. */
+if (sqlite3_prepare_v2(db, "select w.wid,w.type,w.flags,w.speed,n.nid,n.rlat,n.rlon,nn.f,nn.t,n.f,n.l "
+ "from way as w, nodes as n, way_n2n as nn where w.wid=nn.wid and nn.f=n.nid and nn.f=?",
+ -1, &sql.select_node_next, NULL)!=SQLITE_OK)
+ return FALSE;
+
+if (sqlite3_prepare_v2(db, "select w.wid,w.type,w.flags,w.speed,n.nid,n.rlat,n.rlon,nn.f,nn.t,n.f,n.l "
+ "from way as w, nodes as n, way_n2n as nn where w.wid=nn.wid and nn.f=n.nid and nn.t=?",
+ -1, &sql.select_node_prev, NULL)!=SQLITE_OK)
return FALSE;
return TRUE;
void
osm_deinit(void)
{
+if (osmdb) {
+ if (sql.select_way_ref)
+ sqlite3_finalize(sql.select_way_ref);
+ if (sql.select_way_name)
+ sqlite3_finalize(sql.select_way_name);
+ if (sql.select_way_next_seg)
+ sqlite3_finalize(sql.select_way_next_seg);
+ if (sql.select_way_prev_seg)
+ sqlite3_finalize(sql.select_way_prev_seg);
+ if (sql.select_way_name_search)
+ sqlite3_finalize(sql.select_way_name_search);
+ if (sql.select_way2)
+ sqlite3_finalize(sql.select_way2);
+ if (sql.select_place)
+ sqlite3_finalize(sql.select_place);
+ if (sql.select_place_near)
+ sqlite3_finalize(sql.select_place_near);
+ if (sql.select_node_next)
+ sqlite3_finalize(sql.select_node_next);
+ if (sql.select_node_prev)
+ sqlite3_finalize(sql.select_node_prev);
+}
osmdb=NULL;
-g_hash_table_destroy(place_cache);
+osm_db_ok=FALSE;
+memset(&sql, 0, sizeof(sql));
+g_hash_table_destroy(pcache.cache);
+pcache.hit=0;
+pcache.miss=0;
g_timer_destroy(dbt);
}
gboolean
osm_init(sqlite3 **db)
{
-if (!db || !*db)
+osm_db_ok=FALSE;
+pcache.cache=g_hash_table_new(g_direct_hash, g_direct_equal);
+dbt=g_timer_new();
+
+if (!db || !*db) {
+ osmdb=NULL;
return FALSE;
+}
osmdb=*db;
+memset(&sql, 0, sizeof(sql));
if (osm_db_prepare(osmdb)==FALSE) {
g_printerr("Failed to prepare OSM SQL statements:");
g_printf("SQLITE: %s\n", sqlite3_errmsg(osmdb));
return FALSE;
}
-place_cache=g_hash_table_new(g_direct_hash, g_direct_equal);
-dbt=g_timer_new();
+osm_db_ok=TRUE;
return TRUE;
}
static osm_place *
osm_place_cache_lookup(guint32 id)
{
-return g_hash_table_lookup(place_cache, GINT_TO_POINTER(id));
+osm_place *r;
+r=g_hash_table_lookup(pcache.cache, GINT_TO_POINTER(id));
+if (r)
+ pcache.hit++;
+else
+ pcache.miss++;
+
+g_debug("OSM: Cache %d/%d", pcache.hit, pcache.miss);
+return r;
}
static void
osm_place_cache_add(osm_place *p)
{
if (osm_place_cache_lookup(p->id)==NULL)
- g_hash_table_insert(place_cache, GINT_TO_POINTER(p->id), p);
+ g_hash_table_insert(pcache.cache, GINT_TO_POINTER(p->id), p);
}
static void
osm_place_cache_gc(void)
{
-gint r;
-r=g_hash_table_foreach_remove(place_cache, osm_place_remove, NULL);
+guint r;
+
+r=g_hash_table_foreach_remove(pcache.cache, osm_place_remove, NULL);
+g_debug("OSM: Cache cleared (%d)", r);
+pcache.hit=0;
+pcache.miss=0;
}
static void
n=*nr;
n=osm_place_cache_lookup(id);
if (n) {
- g_print("*P!\n");
osm_place_update_distance(n, lat, lon);
return TRUE;
}
n=NULL;
/* XXX: better place for this */
-if (g_hash_table_size(place_cache)>OSM_PLACE_CACHE_MAX_ITEMS)
+if (g_hash_table_size(pcache.cache)>OSM_PLACE_CACHE_MAX_ITEMS)
osm_place_cache_gc();
sqlite3_clear_bindings(sql.select_place);
n->lat=sqlite3_column_int(sql.select_place, 2);
n->lon=sqlite3_column_int(sql.select_place, 3);
n->type=sqlite3_column_int(sql.select_place, 4);
- n->isin=sqlite3_column_int(sql.select_place, 5);
+ n->isin_p=sqlite3_column_int(sql.select_place, 5);
+/* n->isin_c=sqlite3_column_int(sql.select_place, 6); */
return TRUE;
}
return FALSE;
break;
}
-sqlite3_clear_bindings(sql.select_near_place);
-sqlite3_reset(sql.select_near_place);
+sqlite3_clear_bindings(sql.select_place_near);
+sqlite3_reset(sql.select_place_near);
-if (SQLITE_OK != sqlite3_bind_int(sql.select_near_place, 1, lat) ||
- SQLITE_OK != sqlite3_bind_int(sql.select_near_place, 2, lon) ||
- SQLITE_OK != sqlite3_bind_int(sql.select_near_place, 3, type) ||
- SQLITE_OK != sqlite3_bind_int(sql.select_near_place, 4, range)) {
+if (SQLITE_OK != sqlite3_bind_int(sql.select_place_near, 1, lat) ||
+ SQLITE_OK != sqlite3_bind_int(sql.select_place_near, 2, lon) ||
+ SQLITE_OK != sqlite3_bind_int(sql.select_place_near, 3, type) ||
+ SQLITE_OK != sqlite3_bind_int(sql.select_place_near, 4, range)) {
g_printerr("Failed to bind values for near place\n");
return FALSE;
}
n=osm_place_new();
-n->isin=n->lat=n->lon=n->dist=0;
-if (SQLITE_ROW == sqlite3_step(sql.select_near_place)) {
+n->isin_p=n->lat=n->lon=n->dist=0;
+if (SQLITE_ROW == sqlite3_step(sql.select_place_near)) {
const gchar *place;
guint32 dist;
- place=sqlite3_column_text(sql.select_near_place, 0);
+ place=sqlite3_column_text(sql.select_place_near, 0);
n->name=g_strdup(place);
- dist=sqlite3_column_int(sql.select_near_place, 1);
+ dist=sqlite3_column_int(sql.select_place_near, 1);
n->dist=sqrt((double)dist);
- n->lat=sqlite3_column_int(sql.select_near_place, 2);
- n->lon=sqlite3_column_int(sql.select_near_place, 3);
- n->id=sqlite3_column_int(sql.select_near_place, 4);
- n->isin=sqlite3_column_int(sql.select_near_place, 5);
+ n->lat=sqlite3_column_int(sql.select_place_near, 2);
+ n->lon=sqlite3_column_int(sql.select_place_near, 3);
+ n->id=sqlite3_column_int(sql.select_place_near, 4);
+ n->isin_p=sqlite3_column_int(sql.select_place_near, 5);
+/* n->isin_c=sqlite3_column_int(sql.select_place_near, 6); */
n->type=type;
osm_place_cache_add(n);
/*****************************************************************************/
+GSList *
+osm_get_route_node(guint nid, osm_node_direction d)
+{
+GSList *r=NULL;
+osm_way *w;
+guint wc=0;
+sqlite3_stmt *psql=NULL;
+
+switch (d) {
+ case OSM_NODE_NEXT:
+ psql=sql.select_node_next;
+ break;
+ case OSM_NODE_PREV:
+ psql=sql.select_node_prev;
+ break;
+ default:
+ g_assert_not_reached();
+ break;
+}
+
+sqlite3_reset(psql);
+sqlite3_clear_bindings(psql);
+
+if (SQLITE_OK != sqlite3_bind_int(psql, 1, nid)) {
+ g_printerr("Failed to bind values for route node\n");
+ return NULL;
+}
+
+while (SQLITE_ROW == sqlite3_step(psql)) {
+ gdouble lat, lon;
+
+ wc++;
+ w=g_slice_new0(osm_way);
+ w->id=sqlite3_column_int(psql, 0);
+ w->type=sqlite3_column_int(psql, 1);
+ w->flags=sqlite3_column_int(psql, 2);
+ w->speed=sqlite3_column_int(psql, 3);
+
+ lat=sqlite3_column_double(psql, 5);
+ lon=sqlite3_column_double(psql, 6);
+
+ w->f=sqlite3_column_int(psql, 7);
+ w->t=sqlite3_column_int(psql, 8);
+#if 0
+ w->node=
+ w->node->flags=sqlite3_column_int(psql, 9);
+ w->node->links=sqlite3_column_int(psql, 10);
+#endif
+
+ r=g_slist_prepend(r, w);
+}
+
+return r;
+}
+
+
+/*****************************************************************************/
gboolean
osm_way_distance(gint lat, gint lon, osm_way_node *f, osm_way_node *t, gdouble *d)
{
osm_way_node *wnp;
osm_way *way=(osm_way*)iter->data;
-#ifdef DEBUG_OSM
- g_printf("Way: %d (%d) has %d nodes, nearest is %d,%d\n",
+ g_debug("Way: %d (%d) has %d nodes, nearest is %d,%d",
way->id, way->type, way->nodecnt, way->f, way->t);
-#endif
way->node_t=NULL;
cw=way;
way->distance=dist_n;
way->node_t=wnn;
- g_printf("#1 distance: %f (%f)\n", dist_n, pdist);
+ g_debug("#1 distance: %f (%f)", dist_n, pdist);
}
wnp=osm_way_get_prev_node(way);
osm_way_node_free(wnn);
}
way->node_t=wnp;
- g_printf("#2 distance: %f (%f)\n", dist_p, pdist);
+ g_debug("#2 distance: %f (%f)", dist_p, pdist);
}
-#ifdef DEBUG_OSM
- g_printf("Found close way, distance: %f %f (%f)\n", dist_n, dist_p, pdist);
-#endif
+ g_debug("Found close way, distance: %f %f (%f)", dist_n, dist_p, pdist);
if (!cw) {
osm_way_free(way);
osm_way_get_ref(cw);
}
-#ifdef DEBUG_OSM
-g_printf("BEST WAY(%d): %s [%s][%s]\n",
- cw->id, cw->name, cw->ref, cw->int_ref);
-g_printf("\tType: %d Flags: %d Nodes: %d Dist: %f\n",
- cw->type, cw->flags, cw->nodecnt, cw->dist);
-g_printf("\tNF: %d NT: %d Distance: %f\n",
- cw->f,
- cw->t,
- cw->distance);
-#endif
+g_debug("Found way: (ID: %d): [%s]:[%s][%s]", cw->id, cw->name, cw->ref, cw->int_ref);
+g_debug("T: %d F: %d N#: %d D: %f", cw->type, cw->flags, cw->nodecnt, cw->dist);
+g_debug("\tNF#: %d NT#: %d (D: %f)", cw->f, cw->t, cw->distance);
return cw;
}
*
*/
gboolean
-osm_get_location_data(gint lat, gint lon, osm_location *map_loc)
+osm_get_location_data(gint lat, gint lon, gfloat heading, osm_location *map_loc)
{
gdouble dist;
gboolean check_place=FALSE;
/* Check if we are still near the same way as last time */
if (map_loc->street && osm_way_distance(lat, lon, map_loc->street->node_f, map_loc->street->node_t, &dist)==TRUE) {
/* We are probably on the same way as last time */
- if ( (dist>(gdouble)way_dist_range) || (fabs(_gps.heading-map_loc->heading)>10.0)) {
+ if ( (dist>(gdouble)way_dist_range) || (fabs(heading-map_loc->heading)>10.0)) {
/* We have moved a large amount, check way again */
- g_printf("*** dist %f over range, checking again\n", dist);
+ g_debug("Distance %f > %f range or angle %f > 10.0, checking location",
+ dist, way_dist_range, fabs(heading-map_loc->heading));
osm_way_free(map_loc->street);
map_loc->street=osm_find_nearest_way(lat, lon);
check_place=TRUE;
}
if (map_loc->changed==TRUE) {
- map_loc->heading=_gps.heading;
- map_loc->speed=_gps.speed;
+ map_loc->heading=heading;
}
#if 0
gboolean fs;
fs=osm_find_nearest_place(NODE_PLACE_SUBURB, lat, lon, &map_loc->secondary);
- if (fs==TRUE && map_loc->secondary && map_loc->secondary->isin!=0) {
- if (osm_place_get(map_loc->secondary->isin, lat, lon, &(map_loc->primary))==FALSE) {
+ if (fs==TRUE && map_loc->secondary && map_loc->secondary->isin_p!=0) {
+ if (osm_place_get(map_loc->secondary->isin_p, lat, lon, &(map_loc->primary))==FALSE) {
if (osm_find_nearest_place(NODE_PLACE_CITY, lat, lon, &map_loc->primary)==TRUE)
g_printf("Near city: %s\n", map_loc->primary->name);
else if (osm_find_nearest_place(NODE_PLACE_TOWN, lat, lon, &map_loc->primary)==TRUE)
} else {
g_printf("In: %s\n", map_loc->primary ? map_loc->primary->name : "?");
}
- } else if (map_loc->street && map_loc->street->isin!=0) {
- if (osm_place_get(map_loc->street->isin, lat, lon, &map_loc->primary)==FALSE) {
+ } else if (map_loc->street && map_loc->street->isin_p!=0) {
+ if (osm_place_get(map_loc->street->isin_p, lat, lon, &map_loc->primary)==FALSE) {
g_printf("Street location not know.\n");
} else {
g_printf("Street is in: %s\n", map_loc->primary ? map_loc->primary->name : "?");
return map_loc->street ? TRUE : FALSE;
}
+
+/**
+ * osm_place_search
+ */
+gboolean
+osm_place_search(gdouble lat, gdouble lon, gchar *text, GtkListStore **store)
+{
+GtkTreeIter iter;
+gchar *ltext=NULL;
+guint rows=0;
+gchar tmp1[16], tmp2[16];
+gdouble range=6;
+
+ltext=g_strdup_printf("%s%%", text);
+
+if (SQLITE_OK != sqlite3_bind_double(sql.select_place_search, 1, lat) ||
+ SQLITE_OK != sqlite3_bind_double(sql.select_place_search, 2, lon) ||
+ SQLITE_OK != sqlite3_bind_text(sql.select_place_search, 3, ltext, -1, SQLITE_TRANSIENT)) {
+ g_printerr("Failed to bind values for sql.select_place_search\n");
+ sqlite3_clear_bindings(sql.select_place_search);
+ g_free(ltext);
+ return FALSE;
+}
+
+if (ltext)
+ g_free(ltext);
+
+*store = gtk_list_store_new(ITEM_NUM_COLUMNS,
+ G_TYPE_INT, /* ID */
+ G_TYPE_INT, /* */
+ G_TYPE_DOUBLE, /* Latitude */
+ G_TYPE_DOUBLE, /* Longitude */
+ G_TYPE_DOUBLE, /* Distance */
+ G_TYPE_STRING, /* Lat/Lon */
+ G_TYPE_STRING, /* Label */
+ G_TYPE_STRING, /* Desc. */
+ G_TYPE_STRING, /* Category */
+ G_TYPE_STRING, /* Dummy */
+ G_TYPE_STRING); /* Dummy */
+
+while (SQLITE_ROW == sqlite3_step(sql.select_place_search)) {
+ gdouble rlat, rlon, dist;
+
+ rlat=sqlite3_column_double(sql.select_place_search, 3);
+ rlon=sqlite3_column_double(sql.select_place_search, 4);
+ lat_format(_degformat, rlat, tmp1);
+ lon_format(_degformat, rlon, tmp2);
+ dist=calculate_distance(lat, lon, rlat, rlon) * UNITS_CONVERT[_units];
+
+ gtk_list_store_append(*store, &iter);
+ gtk_list_store_set(*store, &iter,
+ ITEM_ID, sqlite3_column_int(sql.select_place_search, 0),
+ ITEM_LAT, rlat,
+ ITEM_LON, rlon,
+ ITEM_DIST, dist,
+ ITEM_LATLON, g_strdup_printf("%s, %s", tmp1, tmp2),
+ ITEM_LABEL, sqlite3_column_text(sql.select_place_search, 1),
+ -1);
+ rows++;
+}
+
+g_printf("Found: %d places\n", rows);
+
+sqlite3_reset(sql.select_place_search);
+sqlite3_clear_bindings(sql.select_place_search);
+
+return TRUE;
+}
+
+/**
+ * osm_way_search
+ *
+ * Search for a street(way) starting with given 'text', next given lat/lon
+ *
+ */
+gboolean
+osm_way_search(gdouble lat, gdouble lon, gchar *text, GtkListStore **store)
+{
+GtkTreeIter iter;
+gchar *ltext=NULL;
+guint rows=0;
+gchar tmp1[16], tmp2[16];
+gdouble range=6;
+
+g_printf("Way Search: [%s] around %.6f %.6f\n", text, lat, lon);
+
+ltext=g_strdup_printf("%s%%", text);
+
+if (SQLITE_OK != sqlite3_bind_double(sql.select_way_name_search, 1, lat) ||
+ SQLITE_OK != sqlite3_bind_double(sql.select_way_name_search, 2, lon) ||
+ SQLITE_OK != sqlite3_bind_int(sql.select_way_name_search, 3, WAY_ROAD_START) ||
+ SQLITE_OK != sqlite3_bind_int(sql.select_way_name_search, 4, WAY_ROAD_END) ||
+ SQLITE_OK != sqlite3_bind_double(sql.select_way_name_search, 6, range) ||
+ SQLITE_OK != sqlite3_bind_text(sql.select_way_name_search, 5, ltext, -1, SQLITE_TRANSIENT)) {
+ g_printerr("Failed to bind values for sql.select_way_name_search\n");
+ sqlite3_clear_bindings(sql.select_way_name_search);
+ g_free(ltext);
+ return FALSE;
+}
+
+if (ltext)
+ g_free(ltext);
+
+*store = gtk_list_store_new(ITEM_NUM_COLUMNS,
+ G_TYPE_INT, /* ID */
+ G_TYPE_INT, /* */
+ G_TYPE_DOUBLE, /* Latitude */
+ G_TYPE_DOUBLE, /* Longitude */
+ G_TYPE_DOUBLE, /* Distance */
+ G_TYPE_STRING, /* Lat/Lon */
+ G_TYPE_STRING, /* Label */
+ G_TYPE_STRING, /* Desc. */
+ G_TYPE_STRING, /* Category */
+ G_TYPE_STRING, /* Dummy */
+ G_TYPE_STRING); /* Dummy */
+
+while (SQLITE_ROW == sqlite3_step(sql.select_way_name_search)) {
+ gdouble rlat, rlon, dist;
+
+ rlat=sqlite3_column_double(sql.select_way_name_search, 3);
+ rlon=sqlite3_column_double(sql.select_way_name_search, 4);
+ lat_format(_degformat, rlat, tmp1);
+ lon_format(_degformat, rlon, tmp2);
+ dist=calculate_distance(lat, lon, rlat, rlon) * UNITS_CONVERT[_units];
+
+ gtk_list_store_append(*store, &iter);
+ gtk_list_store_set(*store, &iter,
+ ITEM_ID, sqlite3_column_int(sql.select_way_name_search, 0),
+ ITEM_LAT, rlat,
+ ITEM_LON, rlon,
+ ITEM_DIST, dist,
+ ITEM_LATLON, g_strdup_printf("%s, %s", tmp1, tmp2),
+ ITEM_LABEL, sqlite3_column_text(sql.select_way_name_search, 1),
+ -1);
+ rows++;
+}
+
+g_printf("Found: %d items\n", rows);
+
+sqlite3_reset(sql.select_way_name_search);
+sqlite3_clear_bindings(sql.select_way_name_search);
+
+return TRUE;
+}