/** * Navit, a modular navigation system. * Copyright (C) 2005-2008 Navit Team * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the * Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #define _FILE_OFFSET_BITS 64 #define _LARGEFILE_SOURCE #define _LARGEFILE64_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include "item.h" #include "zipfile.h" #include "config.h" #ifdef HAVE_POSTGRESQL #include #endif #define BUFFER_SIZE 1280 #define GENERATE_INDEX #if 1 #define debug_tile(x) 0 #else #define debug_tile(x) (!strcmp(x,"bcdbd") || !strcmp(x,"bcdbd") || !strcmp(x,"bcdbda") || !strcmp(x,"bcdbdb") || !strcmp(x,"bcdbdba") || !strcmp(x,"bcdbdbb") || !strcmp(x,"bcdbdbba") || !strcmp(x,"bcdbdbaa") || !strcmp(x,"bcdbdbacaa") || !strcmp(x,"bcdbdbacab") || !strcmp(x,"bcdbdbacaba") || !strcmp(x,"bcdbdbacabaa") || !strcmp(x,"bcdbdbacabab") || !strcmp(x,"bcdbdbacababb") || !strcmp(x,"bcdbdbacababba") || !strcmp(x,"bcdbdbacababbb") || !strcmp(x,"bcdbdbacababbd") || !strcmp(x,"bcdbdbacababaa") || !strcmp(x,"bcdbdbacababab") || !strcmp(x,"bcdbdbacababac") || !strcmp(x,"bcdbdbacababad") || !strcmp(x,"bcdbdbacabaaa") || !strcmp(x,"bcdbdbacabaaba") || !strcmp(x,"bcdbdbacabaabb") || !strcmp(x,"bcdbdbacabaabc") || !strcmp(x,"bcdbdbacabaabd") || !strcmp(x,"bcdbdbacabaaaa") || !strcmp(x,"bcdbdbacabaaab") || !strcmp(x,"bcdbdbacabaaac") || !strcmp(x,"bcdbdbacabaaad") || 0) #endif static GHashTable *dedupe_ways_hash; static int attr_debug_level=1; static int nodeid,wayid; static int report,phase; static int ignore_unkown = 0, coverage=0; static char *attrmap={ "n *=* point_unkn\n" "n amenity=hospital poi_hospital\n" "n amenity=atm poi_bank\n" "n amenity=bank poi_bank\n" "n amenity=pub poi_bar\n" "n amenity=cafe poi_cafe\n" "n amenity=bus_station poi_bus_station\n" "n amenity=parking poi_car_parking\n" "n amenity=cinema poi_cinema\n" "n amenity=fire_station poi_firebrigade\n" "n amenity=fuel poi_fuel\n" "n amenity=courthouse poi_justice\n" "n amenity=library poi_library\n" "n amenity=pharmacy poi_pharmacy\n" "n amenity=place_of_worship,religion=christian poi_church\n" "n amenity=police poi_police\n" "n amenity=post_office poi_post\n" "n amenity=post_box poi_post\n" "n amenity=public_building poi_public_office\n" "n amenity=restaurant poi_restaurant\n" "n amenity=fast_food poi_fastfood\n" "n amenity=toilets poi_restroom\n" "n amenity=school poi_school\n" "n amenity=university poi_school\n" "n amenity=college poi_school\n" "n amenity=telephone poi_telephone\n" "n amenity=theatre poi_theater\n" "n amenity=townhall poi_townhall\n" "n highway=bus_stop poi_bus_stop\n" "n highway=mini_roundabout mini_roundabout\n" "n highway=motorway_junction highway_exit\n" "n highway=traffic_signals traffic_signals\n" "n highway=turning_circle turning_circle\n" "n leisure=slipway poi_boat_ramp\n" "n leisure=fishing poi_fish\n" "n sport=golf poi_golf\n" "n leisure=golf_course poi_golf\n" "n leisure=marina poi_marine\n" "n leisure=sports_centre poi_sport\n" "n leisure=stadium poi_stadium\n" "n shop=supermarket poi_shopping\n" "n shop=convenience poi_shop_grocery\n" "n tourism=attraction poi_attraction\n" "n tourism=camp_site poi_camp_rv\n" "n tourism=caravan_site poi_camp_rv\n" "n tourism=hotel poi_hotel\n" "n tourism=motel poi_hotel\n" "n tourism=guest_house poi_hotel\n" "n tourism=hostel poi_hotel\n" "n tourism=information poi_information\n" "n tourism=museum poi_museum_history\n" "n tourism=picnic_site poi_picnic\n" "n tourism=theme_park poi_resort\n" "n tourism=zoo poi_zoo\n" "n amenity=grave_yard poi_cemetery\n" "n landuse=cemetery poi_cemetery\n" "n military=airfield poi_military\n" "n military=bunker poi_military\n" "n military=barracks poi_military\n" "n military=range poi_military\n" "n military=danger_area poi_danger_area\n" "n sport=swimming poi_swimming\n" "n sport=skiing poi_skiing\n" "n aeroway=aerodrome poi_airport\n" "n aeroway=airport poi_airport\n" "n aeroway=terminal poi_airport\n" "n aeroway=helipad poi_heliport\n" "n man_made=tower poi_tower\n" "n natural=bay poi_bay\n" "n natural=peak poi_peak\n" "n place=suburb district_label\n" "n place=city town_label_2e5\n" "n place=town town_label_2e4\n" "n place=village town_label_2e3\n" "n place=hamlet town_label_2e2\n" "n place=locality town_label_2e0\n" "n railway=halt poi_rail_halt\n" "n railway=level_crossing poi_level_crossing\n" "n railway=station poi_rail_station\n" "n railway=tram_stop poi_rail_tram_stop\n" "n amenity=park_bench poi_bench\n" "n amenity=bench poi_bench\n" "n amenity=biergarten poi_biergarten\n" "n historic=boundary_stone poi_boundary_stone\n" "n historic=castle poi_castle\n" "n historic=ruins poi_ruins\n" "n Annehmlichkeit=Hochsitz poi_hunting_stand\n" "n amenity=hunting_stand poi_hunting_stand\n" "n historic=memorial poi_memorial\n" "n historic=monument poi_monument\n" "n amenity=shelter poi_shelter\n" "n amenity=fountain poi_fountain\n" "n amenity=drinking_water poi_potable_water\n" "n amenity=toilets poi_toilets\n" "n tourism=viewpoint poi_viewpoint\n" "w *=* street_unkn\n" "w contour_ext=elevation_major height_line_1\n" "w contour_ext=elevation_medium height_line_2\n" "w contour_ext=elevation_minor height_line_3\n" "w amenity=place_of_worship poly_building\n" "w building=* poly_building\n" "w aeroway=aerodrome poly_airport\n" "w aeroway=apron poly_apron\n" "w aeroway=runway aeroway_runway\n" "w aeroway=taxiway aeroway_taxiway\n" "w aeroway=terminal poly_terminal\n" "w highway=bridleway bridleway\n" "w highway=path,horse=designated bridleway\n" "w highway=cycleway cycleway\n" "w highway=cyclepath cycleway\n" "w highway=path,bicycle=designated cycleway\n" "w highway=footway footway\n" "w piste:type=nordic piste_nordic\n" "w highway=footway,piste:type=nordic footway_and_piste_nordic\n" "w route=ski piste_nordic\n" "w piste:type=downhill,piste:difficulty=novice piste_downhill_novice\n" "w piste:type=downhill,piste:difficulty=easy piste_downhill_easy\n" "w piste:type=downhill,piste:difficulty=intermediate piste_downhill_intermediate\n" "w piste:type=downhill,piste:difficulty=advanced piste_downhill_advanced\n" "w piste:type=downhill,piste:difficulty=expert piste_downhill_expert\n" "w piste:type=downhill,piste:difficulty=freeride piste_downhill_freeride\n" "w highway=path,foot=designated footway\n" "w highway=steps steps\n" "w highway=path path\n" "w highway=path,sac_scale=hiking hiking\n" "w highway=path,sac_scale=mountain_hiking hiking_mountain\n" "w highway=path,sac_scale=demanding_mountain_hiking hiking_mountain_demanding\n" "w highway=path,sac_scale=alpine_hiking hiking_alpine\n" "w highway=path,sac_scale=demanding_alpine_hiking hiking_alpine_demanding\n" "w highway=path,sac_scale=difficult_alpine_hiking hiking_alpine_difficult\n" "w highway=unsurfaced track_gravelled\n" "w highway=track track_gravelled\n" "w highway=track,tracktype=grade1 track_paved\n" "w highway=track,surface=paved track_paved\n" "w highway=track,tracktype=grade2 track_gravelled\n" "w highway=track,surface=gravel track_gravelled\n" "w highway=track,tracktype=grade3 track_unpaved\n" "w highway=track,surface=unpaved track_unpaved\n" "w highway=track,tracktype=grade4 track_ground\n" "w highway=track,surface=ground track_ground\n" "w highway=track,tracktype=grade5 track_grass\n" "w highway=track,surface=grass track_grass\n" "w highway=parking_lane street_parking_lane\n" "w highway=service,service=parking_aisle street_parking_lane\n" "w highway=service street_service\n" "w highway=service,area=1 poly_service\n" "w highway=construction street_construction\n" "w highway=pedestrian street_pedestrian\n" "w highway=pedestrian,area=1 poly_pedestrian\n" "w highway=plaza poly_plaza\n" "w landuse=plaza poly_plaza\n" "w highway=residential street_1_city\n" "w highway=residential,area=1 poly_street_1\n" "w highway=living_street living_street\n" "w highway=unclassified street_1_city\n" "w highway=unclassified,area=1 poly_street_1\n" "w highway=road street_1_city\n" "w highway=minor street_1_land\n" "w highway=tertiary street_2_city\n" "w highway=tertiary,area=1 poly_street_2\n" "w highway=tertiary_link ramp\n" "w highway=secondary street_3_city\n" "w highway=secondary,area=1 poly_street_3\n" "w highway=secondary_link ramp\n" "w highway=primary street_4_city\n" "w highway=primary_link ramp\n" "w highway=trunk street_4_city\n" "w highway=trunk_link ramp\n" "w highway=motorway highway_city\n" "w highway=motorway_link ramp\n" "w historic=town gate poly_building\n" "w cycleway=track cycleway\n" "w amenity=parking poly_car_parking\n" "w landuse=allotments poly_allotments\n" "w landuse=cemetery poly_cemetery\n" "w amenity=grave_yard poly_cemetery\n" "w landuse=forest poly_wood\n" "w landuse=industrial poly_industry\n" "w landuse=residential poly_town\n" "w landuse=residential,area=1 poly_town\n" "w landuse=farmyard poly_town\n" "w amenity=college poly_college\n" "w amenity=university poly_university\n" "w tourism=camp_site poly_camp_site\n" "w tourism=caravan_site poly_caravan_site\n" "w tourism=picnic_site poly_picnic_site\n" "w tourism=theme_park poly_theme_park\n" "w tourism=attraction poly_attraction\n" "w tourism=zoo poly_zoo\n" "w tourism=artwork poly_artwork\n" "w historic=archaeological_site poly_archaeological_site\n" "w historic=ruins poly_ruins\n" "w historic=battlefield poly_battlefield\n" "w landuse=quarry poly_quarry\n" "w landuse=landfill poly_landfill\n" "w landuse=retail poly_retail\n" "w landuse=commercial poly_commercial\n" "w landuse=brownfield poly_brownfield\n" "w landuse=greenfield poly_greenfield\n" "w landuse=construction poly_construction\n" "w landuse=railway poly_railway\n" "w natural=glacier poly_glacier\n" "w natural=scree poly_scree\n" "w natural=scrub poly_scrub\n" "w natural=fell poly_fell\n" "w natural=heath poly_heath\n" "w natural=marsh poly_marsh\n" "w natural=mud poly_mud\n" "w natural=beach poly_beach\n" "w natural=land poly_land\n" "w landuse=basin poly_basin\n" "w landuse=reservoir poly_reservoir\n" "w landuse=farm poly_farm\n" "w landuse=farmland poly_farm\n" "w landuse=vineyard poly_farm\n" "w leisure=park poly_park\n" "w landuse=village_green poly_village_green\n" "w landuse=recreation_ground poly_recreation_ground\n" "w natural=wood poly_wood\n" "w natural=water poly_water\n" "w natural=coastline water_line\n" "w place=suburb poly_town\n" "w place=town poly_town\n" "w landuse=military poly_military\n" "w military=airfield poly_airfield\n" "w military=barracks poly_barracks\n" "w military=danger_area poly_danger_area\n" "w military=range poly_range\n" "w military=naval_base poly_naval_base\n" "w power=line powerline\n" "w railway=rail rail\n" "w railway=narrow_gauge rail_narrow_gauge\n" "w railway=light_rail rail_light\n" "w railway=subway rail_subway\n" "w railway=tram rail_tram\n" "w railway=monorail rail_mono\n" "w railway=preserved rail_preserved\n" "w railway=disused rail_disused\n" "w railway=abandoned rail_abandoned\n" "w aerialway=cable_car lift_cable_car\n" "w aerialway=chair_lift lift_chair\n" "w aerialway=drag_lift lift_drag\n" "w leisure=golf_course poly_golf_course\n" "w sport=* poly_sport\n" "w leisure=sports_centre poly_sport\n" "w leisure=stadium poly_sports_stadium\n" "w leisure=track poly_sports_track\n" "w leisure=pitch poly_sports_pitch\n" "w leisure=water_park poly_water_park\n" "w leisure=marina poly_marina\n" "w leisure=fishing poly_fishing\n" "w leisure=garden poly_garden\n" "w leisure=common poly_common\n" "w leisure=playground poly_playground\n" "w leisure=nature_reserve poly_nature_reserve\n" "w waterway=canal water_canal\n" "w waterway=river water_river\n" "w waterway=stream water_stream\n" "w waterway=drain water_drain\n" "w waterway=riverbank poly_water\n" "w boundary=administrative border_country\n" "w boundary=civil border_civil\n" "w boundary=political border_political\n" "w boundary=national_park border_national_park\n" "w route=ferry ferry\n" "w highway=bus_guideway bus_guideway\n" }; struct coord { int x; int y; } coord_buffer[65536]; #define IS_REF(c) ((c).x >= (1 << 30)) #define REF(c) ((c).y) #define SET_REF(c,ref) do { (c).x = 1 << 30; (c).y = ref ; } while(0) struct rect { struct coord l,h; }; static void bbox_extend(struct coord *c, struct rect *r); #ifdef GENERATE_INDEX static GHashTable *aux_tile_hash; GList *aux_tile_list; struct country_table { int countryid; char *names; FILE *file; int size; int count; struct rect r; } country_table[] = { { 40,"Austria,�sterreich,AUT"}, {124,"Canada"}, {208,"Denmark,Danmark,DK"}, {246,"Finland,Suomi"}, {250,"France,R�publique fran�aise,FR"}, {276,"Germany,Deutschland,Bundesrepublik Deutschland"}, {380,"Italy,Italia"}, {578,"Norway,Norge,Noreg,NO"}, {752,"Sweden,Sverige,Konungariket Sverige,SE"}, {528,"Nederland,The Netherlands,Niederlande,NL"}, {724,"Spain,Espana,Espana,Reino de Espana"}, {756,"Schweiz"}, {840,"USA"} }; static GHashTable *country_table_hash; #endif struct attr_mapping { enum item_type type; int attr_present_idx_count; int attr_present_idx[0]; }; static struct attr_mapping **attr_mapping_node; static int attr_mapping_node_count; static struct attr_mapping **attr_mapping_way; static int attr_mapping_way_count; static char *attr_present; static int attr_present_count; static GHashTable *attr_hash; static GHashTable *strings_hash = NULL; static char* string_hash_lookup( const char* key ) { char* key_ptr = NULL; if ( strings_hash == NULL ) { strings_hash = g_hash_table_new(g_str_hash, g_str_equal); } if ( ( key_ptr = g_hash_table_lookup(strings_hash, key )) == NULL ) { key_ptr = g_strdup( key ); g_hash_table_insert(strings_hash, key_ptr, (gpointer)key_ptr ); } return key_ptr; } static void build_attrmap_line(char *line) { char *t=NULL,*kvl=NULL,*i=NULL,*p,*kv; struct attr_mapping ***attr_mapping_curr,*attr_mapping=g_malloc0(sizeof(struct attr_mapping)); int idx,attr_mapping_count=0,*attr_mapping_curr_count; t=line; p=strchr(t,'\t'); if (p) { while (*p == '\t') *p++='\0'; kvl=p; p=strchr(kvl,'\t'); } if (p) { while (*p == '\t') *p++='\0'; i=p; } if (t[0] == 'w') { if (! i) i="street_unkn"; attr_mapping_curr=&attr_mapping_way; attr_mapping_curr_count=&attr_mapping_way_count; } else { if (! i) i="point_unkn"; attr_mapping_curr=&attr_mapping_node; attr_mapping_curr_count=&attr_mapping_node_count; } attr_mapping->type=item_from_name(i); while ((kv=strtok(kvl, ","))) { kvl=NULL; if (!(idx=(int)g_hash_table_lookup(attr_hash, kv))) { idx=attr_present_count++; g_hash_table_insert(attr_hash, kv, (gpointer) idx); } attr_mapping=g_realloc(attr_mapping, sizeof(struct attr_mapping)+(attr_mapping_count+1)*sizeof(int)); attr_mapping->attr_present_idx[attr_mapping_count++]=idx; attr_mapping->attr_present_idx_count=attr_mapping_count; } *attr_mapping_curr=g_realloc(*attr_mapping_curr, sizeof(**attr_mapping_curr)*(*attr_mapping_curr_count+1)); (*attr_mapping_curr)[(*attr_mapping_curr_count)++]=attr_mapping; } static void build_attrmap(char *map) { char *p; attr_hash=g_hash_table_new(g_str_hash, g_str_equal); attr_present_count=1; while (map) { p=strchr(map,'\n'); if (p) *p++='\0'; if (strlen(map)) build_attrmap_line(map); map=p; } attr_present=g_malloc0(sizeof(*attr_present)*attr_present_count); } #ifdef GENERATE_INDEX static void build_countrytable(void) { int i; char *names,*str,*tok; country_table_hash=g_hash_table_new(g_str_hash, g_str_equal); for (i = 0 ; i < sizeof(country_table)/sizeof(struct country_table) ; i++) { names=g_strdup(country_table[i].names); str=names; while ((tok=strtok(str, ","))) { str=NULL; g_hash_table_insert(country_table_hash, tok, (gpointer)&country_table[i]); } } } #endif static int processed_nodes, processed_nodes_out, processed_ways, processed_relations, processed_tiles; static int in_way, in_node, in_relation; static void sig_alrm(int sig) { #ifndef _WIN32 signal(SIGALRM, sig_alrm); #endif alarm(30); fprintf(stderr,"PROGRESS%d: Processed %d nodes (%d out) %d ways %d relations %d tiles\n", phase, processed_nodes, processed_nodes_out, processed_ways, processed_relations, processed_tiles); } struct item_bin { int len; enum item_type type; int clen; } item; struct attr_bin { int len; enum attr_type type; }; struct attr_bin label_attr = { 0, attr_label }; char label_attr_buffer[BUFFER_SIZE]; struct attr_bin town_name_attr = { 0, attr_town_name }; struct attr_bin street_name_attr = { 0, attr_street_name }; struct attr_bin street_name_systematic_attr = { 0, attr_street_name_systematic }; char street_name_systematic_attr_buffer[BUFFER_SIZE]; struct attr_bin debug_attr = { 0, attr_debug }; char debug_attr_buffer[BUFFER_SIZE]; struct attr_bin flags_attr = { 0, attr_flags }; int flags_attr_value; char is_in_buffer[BUFFER_SIZE]; static void write_zipmember(FILE *out, FILE *dir_out, char *name, int filelen, char *data, int data_size, int compression_level); static void pad_text_attr(struct attr_bin *a, char *buffer) { int l; if (buffer && buffer[0]) { l=strlen(buffer)+1; while (l % 4) buffer[l++]='\0'; a->len=l/4+1; } else a->len=0; } static int xml_get_attribute(char *xml, char *attribute, char *buffer, int buffer_size) { int len=strlen(attribute); char *pos,*i,s,attr[len+2]; strcpy(attr, attribute); strcpy(attr+len, "="); pos=strstr(xml, attr); if (! pos) return 0; pos+=len+1; s=*pos++; if (! s) return 0; i=strchr(pos, s); if (! i) return 0; if (i - pos > buffer_size) { fprintf(stderr,"Buffer overflow %d vs %d\n", i-pos, buffer_size); return 0; } strncpy(buffer, pos, i-pos); buffer[i-pos]='\0'; return 1; } static int node_is_tagged; static void add_tag(char *k, char *v) { GHashTable *value_hash; enum item_type type; int idx,level=2; char buffer[BUFFER_SIZE*2+2]; if (! strcmp(k,"ele")) level=9; if (! strcmp(k,"time")) level=9; if (! strcmp(k,"created_by")) level=9; if (! strncmp(k,"tiger:",6) || !strcmp(k,"AND_nodes")) level=9; if (! strcmp(k,"converted_by") || ! strcmp(k,"source")) level=8; if (! strncmp(k,"osmarender:",11) || !strncmp(k,"svg:",4)) level=8; if (! strcmp(k,"layer")) level=7; if (! strcasecmp(v,"true") || ! strcasecmp(v,"yes")) v="1"; if (! strcmp(k,"oneway")) { if (!strcmp(v,"1")) { flags_attr_value=AF_ONEWAY; flags_attr.len=2; } if (! strcmp(v,"-1")) { flags_attr_value=AF_ONEWAYREV; flags_attr.len=2; } if (!in_way) level=6; else level=5; } if (! strcmp(k,"junction")) { if (! strcmp(v,"roundabout")) { flags_attr_value=AF_ONEWAY; flags_attr.len=2; } } if (! strcmp(k,"maxspeed")) { level=5; } if (! strcmp(k,"bicycle")) { level=5; } if (! strcmp(k,"foot")) { level=5; } if (! strcmp(k,"note")) level=5; if (! strcmp(k,"name")) { strcpy(label_attr_buffer, v); pad_text_attr(&label_attr, label_attr_buffer); level=5; } if (! strcmp(k,"ref")) { if (in_way) { strcpy(street_name_systematic_attr_buffer, v); pad_text_attr(&street_name_systematic_attr, street_name_systematic_attr_buffer); } level=5; } if (! strcmp(k,"is_in")) { strcpy(is_in_buffer, v); level=5; } if (! strcmp(k,"gnis:ST_alpha")) { /* assume a gnis tag means it is part of the USA: http://en.wikipedia.org/wiki/Geographic_Names_Information_System many US towns do not have is_in tags */ strcpy(is_in_buffer, "USA"); level=5; } if (! strcmp(k,"lanes")) { level=5; } if (attr_debug_level >= level) { int bytes_left = sizeof( debug_attr_buffer ) - strlen(debug_attr_buffer) - 1; if ( bytes_left > 0 ) { snprintf(debug_attr_buffer+strlen(debug_attr_buffer), bytes_left, " %s=%s", k, v); debug_attr_buffer[ sizeof( debug_attr_buffer ) - 1 ] = '\0'; node_is_tagged=1; } } if (level < 6) node_is_tagged=1; if (level >= 5) return; strcpy(buffer,"*=*"); if ((idx=(int)g_hash_table_lookup(attr_hash, buffer))) attr_present[idx]=1; sprintf(buffer,"%s=*", k); if ((idx=(int)g_hash_table_lookup(attr_hash, buffer))) attr_present[idx]=2; sprintf(buffer,"*=%s", v); if ((idx=(int)g_hash_table_lookup(attr_hash, buffer))) attr_present[idx]=2; sprintf(buffer,"%s=%s", k, v); if ((idx=(int)g_hash_table_lookup(attr_hash, buffer))) attr_present[idx]=4; } struct entity { char *entity; char c; } entities[]= { {""",'"'}, {"'",'\''}, {"&",'&'}, {"<",'<'}, {">",'>'}, }; static void decode_entities(char *buffer) { char *pos=buffer; int i,len,found; while ((pos=strchr(pos, '&'))) { found=0; for (i = 0 ; i < sizeof(entities)/sizeof(struct entity); i++) { len=strlen(entities[i].entity); if (!strncmp(pos, entities[i].entity, len)) { *pos=entities[i].c; memmove(pos+1, pos+len, strlen(pos+len)+1); found=1; break; } } pos++; } } static int parse_tag(char *p) { char k_buffer[BUFFER_SIZE]; char v_buffer[BUFFER_SIZE]; if (!xml_get_attribute(p, "k", k_buffer, BUFFER_SIZE)) return 0; if (!xml_get_attribute(p, "v", v_buffer, BUFFER_SIZE)) return 0; decode_entities(v_buffer); add_tag(k_buffer, v_buffer); return 1; } struct buffer { int malloced_step; size_t malloced; unsigned char *base; size_t size; }; static struct tile_head { int num_subtiles; int total_size; char *name; char *zip_data; int total_size_used; int zipnum; int process; struct tile_head *next; // char subtiles[0]; } *tile_head_root; int coord_count; struct node_item { int id; char ref_node; char ref_way; char ref_ref; char dummy; struct coord c; }; static struct buffer node_buffer = { 64*1024*1024, }; static char** th_get_subtile( const struct tile_head* th, int idx ) { char* subtile_ptr = NULL; subtile_ptr = (char*)th + sizeof( struct tile_head ) + idx * sizeof( char *); return (char**)subtile_ptr; } static void extend_buffer(struct buffer *b) { b->malloced+=b->malloced_step; b->base=realloc(b->base, b->malloced); if (b->base == NULL) { fprintf(stderr,"realloc of %d bytes failed\n",b->malloced); exit(1); } } int nodeid_last; GHashTable *node_hash; static void node_buffer_to_hash(void) { int i,count=node_buffer.size/sizeof(struct node_item); struct node_item *ni=(struct node_item *)node_buffer.base; for (i = 0 ; i < count ; i++) g_hash_table_insert(node_hash, (gpointer)(ni[i].id), (gpointer)i); } static struct node_item *ni; static void add_node(int id, double lat, double lon) { if (node_buffer.size + sizeof(struct node_item) > node_buffer.malloced) extend_buffer(&node_buffer); node_is_tagged=0; nodeid=id; item.type=type_point_unkn; label_attr.len=0; town_name_attr.len=0; debug_attr.len=0; is_in_buffer[0]='\0'; sprintf(debug_attr_buffer,"nodeid=%d", nodeid); ni=(struct node_item *)(node_buffer.base+node_buffer.size); ni->id=id; ni->ref_node=0; ni->ref_way=0; ni->ref_ref=0; ni->dummy=0; ni->c.x=lon*6371000.0*M_PI/180; ni->c.y=log(tan(M_PI_4+lat*M_PI/360))*6371000.0; node_buffer.size+=sizeof(struct node_item); if (! node_hash) { if (ni->id > nodeid_last) { nodeid_last=ni->id; } else { fprintf(stderr,"INFO: Nodes out of sequence (new %d vs old %d), adding hash\n", ni->id, nodeid_last); node_hash=g_hash_table_new(NULL, NULL); node_buffer_to_hash(); } } else if (!g_hash_table_lookup(node_hash, (gpointer)(ni->id))) g_hash_table_insert(node_hash, (gpointer)(ni->id), (gpointer)(ni-(struct node_item *)node_buffer.base)); else { node_buffer.size-=sizeof(struct node_item); nodeid=0; } } static int parse_node(char *p) { char id_buffer[BUFFER_SIZE]; char lat_buffer[BUFFER_SIZE]; char lon_buffer[BUFFER_SIZE]; if (!xml_get_attribute(p, "id", id_buffer, BUFFER_SIZE)) return 0; if (!xml_get_attribute(p, "lat", lat_buffer, BUFFER_SIZE)) return 0; if (!xml_get_attribute(p, "lon", lon_buffer, BUFFER_SIZE)) return 0; add_node(atoi(id_buffer), atof(lat_buffer), atof(lon_buffer)); return 1; } static struct node_item * node_item_get(int id) { struct node_item *ni=(struct node_item *)(node_buffer.base); int count=node_buffer.size/sizeof(struct node_item); int interval=count/4; int p=count/2; if (node_hash) { int i; i=(int)(g_hash_table_lookup(node_hash, (gpointer)id)); return ni+i; } while (ni[p].id != id) { #if 0 fprintf(stderr,"p=%d count=%d interval=%d id=%d ni[p].id=%d\n", p, count, interval, id, ni[p].id); #endif if (ni[p].id < id) { p+=interval; if (interval == 1) { if (p >= count) return NULL; if (ni[p].id > id) return NULL; } else { if (p >= count) p=count-1; } } else { p-=interval; if (interval == 1) { if (p < 0) return NULL; if (ni[p].id < id) return NULL; } else { if (p < 0) p=0; } } if (interval > 1) interval/=2; } return &ni[p]; } static void node_ref_way(int id) { struct node_item *ni=node_item_get(id); if (! ni) { fprintf(stderr,"WARNING: node id %d not found\n", id); return; } ni->ref_way++; } static void add_way(int id) { wayid=id; coord_count=0; item.type=type_street_unkn; label_attr.len=0; street_name_attr.len=0; street_name_systematic_attr.len=0; debug_attr.len=0; flags_attr.len=0; sprintf(debug_attr_buffer,"wayid=%d", wayid); } static int parse_way(char *p) { char id_buffer[BUFFER_SIZE]; if (!xml_get_attribute(p, "id", id_buffer, BUFFER_SIZE)) return 0; add_way(atoi(id_buffer)); return 1; } static int parse_relation(char *p) { debug_attr_buffer[0]='\0'; return 1; } static void item_buffer_set_type(char *buffer, enum item_type type) { struct item_bin *ib=(struct item_bin *) buffer; ib->clen=0; ib->len=2; ib->type=type; } static void item_buffer_add_coord(char *buffer, struct coord *c, int count) { struct item_bin *ib=(struct item_bin *) buffer; struct coord *c2=(struct coord *)(ib+1); c2+=ib->clen/2; memcpy(c2, c, count*sizeof(struct coord)); ib->clen+=count*2; ib->len+=count*2; } static void item_buffer_add_attr(char *buffer, struct attr *attr) { struct item_bin *ib=(struct item_bin *) buffer; struct attr_bin *ab=(struct attr_bin *)((int *)ib+ib->len+1); if (attr->type >= attr_type_string_begin && attr->type <= attr_type_string_end) { ab->type=attr->type; strcpy((char *)(ab+1),attr->u.str); pad_text_attr(ab, (char *)(ab+1)); ib->len+=ab->len+1; } } static void item_buffer_write(char *buffer, FILE *out) { struct item_bin *ib=(struct item_bin *) buffer; fwrite(buffer, (ib->len+1)*4, 1, out); } static void write_attr(FILE *out, struct attr_bin *attr, void *buffer) { if (attr->len) { fwrite(attr, sizeof(*attr), 1, out); fwrite(buffer, (attr->len-1)*4, 1, out); } } static int attr_longest_match(struct attr_mapping **mapping, int mapping_count, enum item_type *types, int types_count) { int i,j,longest=0,ret=0,sum,val; struct attr_mapping *curr; for (i = 0 ; i < mapping_count ; i++) { sum=0; curr=mapping[i]; for (j = 0 ; j < curr->attr_present_idx_count ; j++) { val=attr_present[curr->attr_present_idx[j]]; if (val) sum+=val; else { sum=-1; break; } } if (sum > longest) { longest=sum; ret=0; } if (sum > 0 && sum == longest && ret < types_count) types[ret++]=curr->type; } memset(attr_present, 0, sizeof(*attr_present)*attr_present_count); return ret; } static void end_way(FILE *out) { int alen=0,count; enum item_type types[5]; if (! out) return; if (dedupe_ways_hash) { if (g_hash_table_lookup(dedupe_ways_hash, (gpointer)wayid)) return; g_hash_table_insert(dedupe_ways_hash, (gpointer)wayid, (gpointer)1); } count=attr_longest_match(attr_mapping_way, attr_mapping_way_count, types, sizeof(types)/sizeof(enum item_type)); pad_text_attr(&debug_attr, debug_attr_buffer); if (label_attr.len) alen+=label_attr.len+1; if (street_name_systematic_attr.len) alen+=street_name_systematic_attr.len+1; if (debug_attr.len) alen+=debug_attr.len+1; if (flags_attr.len) alen+=flags_attr.len+1; if (count) item.type=types[0]; else item.type=type_street_unkn; if (coverage && item_is_street(item)) item.type=type_coverage; item.clen=coord_count*2; item.len=item.clen+2+alen; fwrite(&item, sizeof(item), 1, out); fwrite(coord_buffer, coord_count*sizeof(struct coord), 1, out); if (item_is_street(item)) { street_name_attr.len=label_attr.len; write_attr(out, &street_name_attr, label_attr_buffer); } else write_attr(out, &label_attr, label_attr_buffer); write_attr(out, &street_name_systematic_attr, street_name_systematic_attr_buffer); write_attr(out, &debug_attr, debug_attr_buffer); write_attr(out, &flags_attr, &flags_attr_value); } static void end_node(FILE *out) { int alen=0,conflict=0,count; enum item_type types[5]; struct country_table *result=NULL, *lookup; if (!out || ! node_is_tagged || ! nodeid) return; count=attr_longest_match(attr_mapping_node, attr_mapping_node_count, types, sizeof(types)/sizeof(enum item_type)); pad_text_attr(&debug_attr, debug_attr_buffer); if (label_attr.len) alen+=label_attr.len+1; if (debug_attr.len) alen+=debug_attr.len+1; if (count) item.type=types[0]; else item.type=type_point_unkn; item.clen=2; item.len=item.clen+2+alen; fwrite(&item, sizeof(item), 1, out); fwrite(&ni->c, 1*sizeof(struct coord), 1, out); if (item_is_town(item)) { town_name_attr.len=label_attr.len; write_attr(out, &town_name_attr, label_attr_buffer); } else write_attr(out, &label_attr, label_attr_buffer); write_attr(out, &debug_attr, debug_attr_buffer); #ifdef GENERATE_INDEX if (item_is_town(item) && town_name_attr.len) { char *tok,*buf=is_in_buffer; while ((tok=strtok(buf, ","))) { while (*tok==' ') tok++; lookup=g_hash_table_lookup(country_table_hash,tok); if (lookup) { if (result && result->countryid != lookup->countryid) { fprintf(stderr,"conflict for %s %s country %d vs %d\n", label_attr_buffer, debug_attr_buffer, lookup->countryid, result->countryid); conflict=1; } else result=lookup; } buf=NULL; } if (result && !conflict) { if (!result->file) { char *name=g_strdup_printf("country_%d.bin.unsorted", result->countryid); result->file=fopen(name,"w"); g_free(name); } if (result->file) { item.clen=2; item.len=item.clen+2+label_attr.len+1; fwrite(&item, sizeof(item), 1, result->file); fwrite(&ni->c, 1*sizeof(struct coord), 1, result->file); write_attr(result->file, &town_name_attr, label_attr_buffer); result->count++; result->size+=(item.clen+3+label_attr.len+1)*4; } } } #endif processed_nodes_out++; } static int sort_countries_compare(const void *p1, const void *p2) { struct item_bin *ib1=*((struct item_bin **)p1),*ib2=*((struct item_bin **)p2); struct attr_bin *attr1,*attr2; char *s1,*s2; assert(ib1->clen==2); assert(ib2->clen==2); attr1=(struct attr_bin *)((int *)(ib1+1)+ib1->clen); attr2=(struct attr_bin *)((int *)(ib2+1)+ib1->clen); assert(attr1->type == attr_town_name); assert(attr2->type == attr_town_name); s1=(char *)(attr1+1); s2=(char *)(attr2+1); return strcmp(s1, s2); #if 0 fprintf(stderr,"sort_countries_compare p1=%p p2=%p %s %s\n",p1,p2,s1,s2); #endif return 0; } #ifdef GENERATE_INDEX static void sort_countries(void) { int i,j; struct country_table *co; struct coord *c; struct item_bin *ib; FILE *f; char *p,*buffer,**idx,*name; for (i = 0 ; i < sizeof(country_table)/sizeof(struct country_table) ; i++) { co=&country_table[i]; if (co->file) { fclose(co->file); co->file=NULL; } if (co->size) { buffer=malloc(co->size); assert(buffer != NULL); idx=malloc(co->count*sizeof(void *)); assert(idx != NULL); name=g_strdup_printf("country_%d.bin.unsorted", co->countryid); f=fopen(name,"r"); assert(f != NULL); fread(buffer, co->size, 1, f); fclose(f); unlink(name); g_free(name); p=buffer; for (j = 0 ; j < co->count ; j++) { idx[j]=p; p+=(*((int *)p)+1)*4; } qsort(idx, co->count, sizeof(void *), sort_countries_compare); name=g_strdup_printf("country_%d.bin", co->countryid); f=fopen(name,"w"); for (j = 0 ; j < co->count ; j++) { ib=(struct item_bin *)(idx[j]); c=(struct coord *)(ib+1); fwrite(ib, (ib->len+1)*4, 1, f); if (j) bbox_extend(c, &co->r); else co->r.l=*c; co->r.h=*c; } fclose(f); } } } #endif static void add_nd(char *p, int ref) { int len; struct node_item *ni; ni=node_item_get(ref); if (ni) { #if 0 coord_buffer[coord_count++]=ni->c; #else SET_REF(coord_buffer[coord_count], ref); coord_count++; #endif ni->ref_way++; } else { len=strlen(p); if (len > 0 && p[len-1]=='\n') p[len-1]='\0'; fprintf(stderr,"WARNING: way %d: node %d not found (%s)\n",wayid,ref,p); } if (coord_count > 65536) { fprintf(stderr,"ERROR: Overflow\n"); exit(1); } } static int parse_nd(char *p) { char ref_buffer[BUFFER_SIZE]; if (!xml_get_attribute(p, "ref", ref_buffer, BUFFER_SIZE)) return 0; add_nd(p, atoi(ref_buffer)); return 1; } static void save_buffer(char *filename, struct buffer *b) { FILE *f; f=fopen(filename,"wb+"); fwrite(b->base, b->size, 1, f); fclose(f); } static void load_buffer(char *filename, struct buffer *b) { FILE *f; if (b->base) free(b->base); b->malloced=0; f=fopen(filename,"rb"); fseek(f, 0, SEEK_END); b->size=b->malloced=ftell(f); fprintf(stderr,"reading %d bytes from %s\n", b->size, filename); fseek(f, 0, SEEK_SET); b->base=malloc(b->size); assert(b->base != NULL); fread(b->base, b->size, 1, f); fclose(f); } static int phase1(FILE *in, FILE *out_ways, FILE *out_nodes) { int size=4096; char buffer[size]; char *p; sig_alrm(0); while (fgets(buffer, size, in)) { p=strchr(buffer,'<'); if (! p) { fprintf(stderr,"WARNING: wrong line %s\n", buffer); continue; } if (!strncmp(p, "",7)) { in_node=0; end_node(out_nodes); } else if (!strncmp(p, "",6)) { in_way=0; end_way(out_ways); } else if (!strncmp(p, "",11)) { in_relation=0; } else if (!strncmp(p, "",6)) { } else { fprintf(stderr,"WARNING: unknown tag in %s\n", buffer); } } sig_alrm(0); alarm(0); return 1; } #ifdef HAVE_POSTGRESQL static int phase1_db(char *dbstr, FILE *out_ways, FILE *out_nodes) { PGconn *conn; PGresult *res,*node,*way,*tag; int count,tagged,i,j,k; long min, max, id, tag_id, node_id; char query[256]; sig_alrm(0); conn=PQconnectdb(dbstr); if (! conn) { fprintf(stderr,"Failed to connect to database with '%s'\n",dbstr); exit(1); } res=PQexec(conn, "begin"); if (! res) { fprintf(stderr, "Cannot begin transaction: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } res=PQexec(conn, "set transaction isolation level serializable"); if (! res) { fprintf(stderr, "Cannot set isolation level: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } res=PQexec(conn, "declare node cursor for select id,x(coordinate),y(coordinate) from node order by id"); if (! res) { fprintf(stderr, "Cannot setup cursor for nodes: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } res=PQexec(conn, "declare way cursor for select id from way order by id"); if (! res) { fprintf(stderr, "Cannot setup cursor for nodes: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } res=PQexec(conn, "declare relation cursor for select id from relation order by id"); if (! res) { fprintf(stderr, "Cannot setup cursor for nodes: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } for (;;) { node=PQexec(conn, "fetch 100000 from node"); if (! node) { fprintf(stderr, "Cannot setup cursor for nodes: %s\n", PQerrorMessage(conn)); PQclear(node); exit(1); } count=PQntuples(node); if (! count) break; min=atol(PQgetvalue(node, 0, 0)); max=atol(PQgetvalue(node, count-1, 0)); sprintf(query,"select node_id,name,value from node_tag where node_id >= %ld and node_id <= %ld order by node_id", min, max); tag=PQexec(conn, query); if (! tag) { fprintf(stderr, "Cannot query node_tag: %s\n", PQerrorMessage(conn)); exit(1); } j=0; for (i = 0 ; i < count ; i++) { id=atol(PQgetvalue(node, i, 0)); add_node(id, atof(PQgetvalue(node, i, 1)), atof(PQgetvalue(node, i, 2))); tagged=0; in_node=1; processed_nodes++; while (j < PQntuples(tag)) { tag_id=atol(PQgetvalue(tag, j, 0)); if (tag_id == id) { add_tag(PQgetvalue(tag, j, 1), PQgetvalue(tag, j, 2)); tagged=1; j++; } if (tag_id < id) j++; if (tag_id > id) break; } if (tagged) end_node(out_nodes); in_node=0; } PQclear(tag); PQclear(node); } for (;;) { way=PQexec(conn, "fetch 100000 from way"); if (! way) { fprintf(stderr, "Cannot setup cursor for ways: %s\n", PQerrorMessage(conn)); PQclear(node); exit(1); } count=PQntuples(way); if (! count) break; min=atol(PQgetvalue(way, 0, 0)); max=atol(PQgetvalue(way, count-1, 0)); sprintf(query,"select way_id,node_id from way_node where way_id >= %ld and way_id <= %ld order by way_id,sequence_id", min, max); node=PQexec(conn, query); if (! node) { fprintf(stderr, "Cannot query way_node: %s\n", PQerrorMessage(conn)); exit(1); } sprintf(query,"select way_id,name,value from way_tag where way_id >= %ld and way_id <= %ld order by way_id", min, max); tag=PQexec(conn, query); if (! tag) { fprintf(stderr, "Cannot query way_tag: %s\n", PQerrorMessage(conn)); exit(1); } j=0; k=0; for (i = 0 ; i < count ; i++) { id=atol(PQgetvalue(way, i, 0)); add_way(id); tagged=0; in_way=1; processed_ways++; while (k < PQntuples(node)) { node_id=atol(PQgetvalue(node, k, 0)); if (node_id == id) { add_nd("",atol(PQgetvalue(node, k, 1))); tagged=1; k++; } if (node_id < id) k++; if (node_id > id) break; } while (j < PQntuples(tag)) { tag_id=atol(PQgetvalue(tag, j, 0)); if (tag_id == id) { add_tag(PQgetvalue(tag, j, 1), PQgetvalue(tag, j, 2)); tagged=1; j++; } if (tag_id < id) j++; if (tag_id > id) break; } if (tagged) end_way(out_ways); in_way=0; } PQclear(tag); PQclear(node); PQclear(way); } res=PQexec(conn, "commit"); if (! res) { fprintf(stderr, "Cannot commit transaction: %s\n", PQerrorMessage(conn)); PQclear(res); exit(1); } sig_alrm(0); alarm(0); return 1; } #endif static char buffer[200000]; static void phase1_map(struct map *map, FILE *out_ways, FILE *out_nodes) { struct map_rect *mr=map_rect_new(map, NULL); struct item *item; int count,max=16384; struct coord ca[max]; struct item_bin ib; struct attr attr; FILE *file; while ((item = map_rect_get_item(mr))) { count=item_coord_get(item, ca, item->type < type_line ? 1: max); item_buffer_set_type(buffer, item->type); item_buffer_add_coord(buffer, ca, count); while (item_attr_get(item, attr_any, &attr)) { item_buffer_add_attr(buffer, &attr); } if (item->type >= type_line) item_buffer_write(buffer, out_ways); else item_buffer_write(buffer, out_nodes); } map_rect_destroy(mr); } int bytes_read=0; static struct item_bin * read_item(FILE *in) { struct item_bin *ib=(struct item_bin *) buffer; int r,s; r=fread(ib, sizeof(*ib), 1, in); if (r != 1) return NULL; bytes_read+=r; assert((ib->len+1)*4 < sizeof(buffer)); s=(ib->len+1)*4-sizeof(*ib); r=fread(ib+1, s, 1, in); if (r != 1) return NULL; bytes_read+=r; return ib; } static void bbox_extend(struct coord *c, struct rect *r) { if (c->x < r->l.x) r->l.x=c->x; if (c->y < r->l.y) r->l.y=c->y; if (c->x > r->h.x) r->h.x=c->x; if (c->y > r->h.y) r->h.y=c->y; } static void bbox(struct coord *c, int count, struct rect *r) { if (! count) return; r->l=*c; r->h=*c; while (--count) { c++; bbox_extend(c, r); } } static int contains_bbox(int xl, int yl, int xh, int yh, struct rect *r) { if (r->h.x < xl || r->h.x > xh) { return 0; } if (r->l.x > xh || r->l.x < xl) { return 0; } if (r->h.y < yl || r->h.y > yh) { return 0; } if (r->l.y > yh || r->l.y < yl) { return 0; } return 1; } struct rect world_bbox = { { -20000000, -20000000}, { 20000000, 20000000}, }; static void tile(struct rect *r, char *ret, int max) { int x0,x1,x2,x3,x4; int y0,y1,y2,y3,y4; int i; x0=world_bbox.l.x; y0=world_bbox.l.y; x4=world_bbox.h.x; y4=world_bbox.h.y; for (i = 0 ; i < max ; i++) { x2=(x0+x4)/2; y2=(y0+y4)/2; x1=(x0+x2)/2; y1=(y0+y2)/2; x3=(x2+x4)/2; y3=(y2+y4)/2; if ( contains_bbox(x0,y0,x2,y2,r)) { strcat(ret,"d"); x4=x2; y4=y2; } else if (contains_bbox(x2,y0,x4,y2,r)) { strcat(ret,"c"); x0=x2; y4=y2; } else if (contains_bbox(x0,y2,x2,y4,r)) { strcat(ret,"b"); x4=x2; y0=y2; } else if (contains_bbox(x2,y2,x4,y4,r)) { strcat(ret,"a"); x0=x2; y0=y2; } else return; } } static void tile_bbox(char *tile, struct rect *r) { struct coord c; *r=world_bbox; while (*tile) { c.x=(r->l.x+r->h.x)/2; c.y=(r->l.y+r->h.y)/2; switch (*tile) { case 'a': r->l.x=c.x; r->l.y=c.y; break; case 'b': r->h.x=c.x; r->l.y=c.y; break; case 'c': r->l.x=c.x; r->h.y=c.y; break; case 'd': r->h.x=c.x; r->h.y=c.y; break; } tile++; } } GHashTable *tile_hash; GHashTable *tile_hash2; static void tile_extend(char *tile, struct item_bin *ib, GList **tiles_list) { struct tile_head *th=NULL; if (debug_tile(tile)) fprintf(stderr,"Tile:Writing %d bytes to '%s' (%p,%p)\n", (ib->len+1)*4, tile, g_hash_table_lookup(tile_hash, tile), tile_hash2 ? g_hash_table_lookup(tile_hash2, tile) : NULL); if (tile_hash2) th=g_hash_table_lookup(tile_hash2, tile); if (!th) th=g_hash_table_lookup(tile_hash, tile); if (! th) { th=malloc(sizeof(struct tile_head)+ sizeof( char* ) ); assert(th != NULL); // strcpy(th->subtiles, tile); th->num_subtiles=1; th->total_size=0; th->total_size_used=0; th->zipnum=0; th->zip_data=NULL; th->name=string_hash_lookup(tile); *th_get_subtile( th, 0 ) = th->name; if (tile_hash2) g_hash_table_insert(tile_hash2, string_hash_lookup( th->name ), th); if (tiles_list) *tiles_list=g_list_append(*tiles_list, string_hash_lookup( th->name ) ); processed_tiles++; if (debug_tile(tile)) fprintf(stderr,"new '%s'\n", tile); } th->total_size+=ib->len*4+4; if (debug_tile(tile)) fprintf(stderr,"New total size of %s(%p):%d\n", th->name, th, th->total_size); g_hash_table_insert(tile_hash, string_hash_lookup( th->name ), th); } static int tile_data_size(char *tile) { struct tile_head *th; th=g_hash_table_lookup(tile_hash, tile); if (! th) return 0; return th->total_size; } static int merge_tile(char *base, char *sub) { struct tile_head *thb, *ths; thb=g_hash_table_lookup(tile_hash, base); ths=g_hash_table_lookup(tile_hash, sub); if (! ths) return 0; if (debug_tile(base) || debug_tile(sub)) fprintf(stderr,"merging '%s'(%p) (%d) with '%s'(%p) (%d)\n", base, thb, thb ? thb->total_size : 0, sub, ths, ths->total_size); if (! thb) { thb=ths; g_hash_table_remove(tile_hash, sub); thb->name=string_hash_lookup(base); g_hash_table_insert(tile_hash, string_hash_lookup( thb->name ), thb); } else { thb=realloc(thb, sizeof(struct tile_head)+( ths->num_subtiles+thb->num_subtiles ) * sizeof( char*) ); assert(thb != NULL); memcpy( th_get_subtile( thb, thb->num_subtiles ), th_get_subtile( ths, 0 ), ths->num_subtiles * sizeof( char*) ); thb->num_subtiles+=ths->num_subtiles; thb->total_size+=ths->total_size; g_hash_table_insert(tile_hash, string_hash_lookup( thb->name ), thb); g_hash_table_remove(tile_hash, sub); g_free(ths); } return 1; } static void get_tiles_list_func(char *key, struct tile_head *th, GList **list) { *list=g_list_prepend(*list, key); } static GList * get_tiles_list(void) { GList *ret=NULL; g_hash_table_foreach(tile_hash, (GHFunc)get_tiles_list_func, &ret); return ret; } #if 0 static void write_tile(char *key, struct tile_head *th, gpointer dummy) { FILE *f; char buffer[1024]; fprintf(stderr,"DEBUG: Writing %s\n", key); strcpy(buffer,"tiles/"); strcat(buffer,key); #if 0 strcat(buffer,".bin"); #endif f=fopen(buffer, "wb+"); while (th) { fwrite(th->data, th->size, 1, f); th=th->next; } fclose(f); } #endif static void write_item(char *tile, struct item_bin *ib) { struct tile_head *th; int size; th=g_hash_table_lookup(tile_hash2, tile); if (! th) th=g_hash_table_lookup(tile_hash, tile); if (th) { if (th->process != 0 && th->process != 1) { fprintf(stderr,"error with tile '%s' of length %d\n", tile, strlen(tile)); abort(); } if (! th->process) return; if (debug_tile(tile)) fprintf(stderr,"Data:Writing %d bytes to '%s' (%p,%p)\n", (ib->len+1)*4, tile, g_hash_table_lookup(tile_hash, tile), tile_hash2 ? g_hash_table_lookup(tile_hash2, tile) : NULL); size=(ib->len+1)*4; if (th->total_size_used+size > th->total_size) { fprintf(stderr,"Overflow in tile %s (used %d max %d item %d)\n", tile, th->total_size_used, th->total_size, size); exit(1); return; } memcpy(th->zip_data+th->total_size_used, ib, size); th->total_size_used+=size; } else { fprintf(stderr,"no tile hash found for %s\n", tile); exit(1); } } static void write_item_part(FILE *out, struct item_bin *orig, int first, int last) { struct item_bin new; struct coord *c=(struct coord *)(orig+1); char *attr=(char *)(c+orig->clen/2); int attr_len=orig->len-orig->clen-2; processed_ways++; new.type=orig->type; new.clen=(last-first+1)*2; new.len=new.clen+attr_len+2; #if 0 fprintf(stderr,"first %d last %d type 0x%x len %d clen %d attr_len %d\n", first, last, new.type, new.len, new.clen, attr_len); #endif fwrite(&new, sizeof(new), 1, out); fwrite(c+first, new.clen*4, 1, out); fwrite(attr, attr_len*4, 1, out); } static int phase2(FILE *in, FILE *out) { struct coord *c; int i,ccount,last,ndref; struct item_bin *ib; struct node_item *ni; processed_nodes=processed_nodes_out=processed_ways=processed_relations=processed_tiles=0; sig_alrm(0); while ((ib=read_item(in))) { #if 0 fprintf(stderr,"type 0x%x len %d clen %d\n", ib->type, ib->len, ib->clen); #endif ccount=ib->clen/2; c=(struct coord *)(ib+1); last=0; for (i = 0 ; i < ccount ; i++) { if (IS_REF(c[i])) { ndref=REF(c[i]); ni=node_item_get(ndref); #if 0 fprintf(stderr,"ni=%p\n", ni); #endif c[i]=ni->c; if (ni->ref_way > 1 && i != 0 && i != ccount-1 && item_is_street(*ib)) { write_item_part(out, ib, last, i); last=i; } } } write_item_part(out, ib, last, ccount-1); } sig_alrm(0); alarm(0); return 0; } static void phase34_process_file(int phase, FILE *in) { struct item_bin *ib; struct rect r; char buffer[1024]; int max; while ((ib=read_item(in))) { if (ib->type < 0x80000000) processed_nodes++; else processed_ways++; bbox((struct coord *)(ib+1), ib->clen/2, &r); buffer[0]='\0'; max=14; if (ib->type == type_street_n_lanes || ib->type == type_highway_city || ib->type == type_highway_land || ib->type == type_ramp) max=8; if (ib->type == type_street_3_city || ib->type == type_street_4_city || ib->type == type_street_3_land || ib->type == type_street_4_land) max=12; tile(&r, buffer, max); #if 0 fprintf(stderr,"%s\n", buffer); #endif if (phase == 3) tile_extend(buffer, ib, NULL); else write_item(buffer, ib); } } struct index_item { struct item_bin item; struct rect r; struct attr_bin attr_order; short min; short max; struct attr_bin attr_zipfile_ref; int zipfile_ref; }; static void index_submap_add(int phase, struct tile_head *th, GList **tiles_list) { struct index_item ii; int len=strlen(th->name); char index_tile[len+1]; ii.min=(len > 4) ? len-4 : 0; ii.max=255; strcpy(index_tile, th->name); if (len > 6) len=6; else len=0; index_tile[len]=0; tile_bbox(th->name, &ii.r); ii.item.len=sizeof(ii)/4-1; ii.item.type=type_submap; ii.item.clen=4; ii.attr_order.len=2; ii.attr_order.type=attr_order; ii.attr_zipfile_ref.len=2; ii.attr_zipfile_ref.type=attr_zipfile_ref; ii.zipfile_ref=th->zipnum; if (phase == 3) tile_extend(index_tile, (struct item_bin *)&ii, tiles_list); else write_item(index_tile, (struct item_bin *)&ii); #if 0 unsigned int *c=(unsigned int *)ⅈ int i; for (i = 0 ; i < sizeof(ii)/4 ; i++) { fprintf(stderr,"%08x ", c[i]); } fprintf(stderr,"\n"); #endif } static int add_tile_hash(struct tile_head *th) { int idx,len,maxnamelen=0; char **data; #if 0 g_hash_table_insert(tile_hash2, string_hash_lookup( th->name ), th); #endif for( idx = 0; idx < th->num_subtiles; idx++ ) { data = th_get_subtile( th, idx ); if (debug_tile(data) || debug_tile(th->name)) { fprintf(stderr,"Parent for '%s' is '%s'\n", *data, th->name); } g_hash_table_insert(tile_hash2, *data, th); len = strlen( *data ); if (len > maxnamelen) { maxnamelen=len; } } return maxnamelen; } static int create_tile_hash(void) { struct tile_head *th; int len,maxnamelen=0; tile_hash2=g_hash_table_new(g_str_hash, g_str_equal); th=tile_head_root; while (th) { len=add_tile_hash(th); if (len > maxnamelen) maxnamelen=len; th=th->next; } return maxnamelen; } static void create_tile_hash_list(GList *list) { GList *next; struct tile_head *th; tile_hash2=g_hash_table_new(g_str_hash, g_str_equal); fprintf(stderr,"list=%p\n", list); next=g_list_first(list); while (next) { th=g_hash_table_lookup(tile_hash, next->data); if (!th) { fprintf(stderr,"No tile found for '%s'\n", (char *)(next->data)); } add_tile_hash(th); next=g_list_next(next); } } static void destroy_tile_hash(void) { g_hash_table_destroy(tile_hash2); tile_hash2=NULL; } static int zipnum; static void write_countrydir(int phase, int maxnamelen); static void write_tilesdir(int phase, int maxlen, FILE *out) { int idx,len; GList *tiles_list,*next; char **data; struct tile_head *th,**last=NULL; zipnum=0; tiles_list=get_tiles_list(); if (phase == 3) create_tile_hash_list(tiles_list); next=g_list_first(tiles_list); last=&tile_head_root; if (! maxlen) { while (next) { if (strlen(next->data) > maxlen) maxlen=strlen(next->data); next=g_list_next(next); } } len=maxlen; while (len >= 0) { #if 0 fprintf(stderr,"PROGRESS: collecting tiles with len=%d\n", len); #endif #ifdef GENERATE_INDEX if (! len) write_countrydir(phase, maxlen); #endif next=g_list_first(tiles_list); while (next) { if (strlen(next->data) == len) { th=g_hash_table_lookup(tile_hash, next->data); if (phase == 3) { *last=th; last=&th->next; th->next=NULL; th->zipnum=zipnum; fprintf(out,"%s:%d",(char *)next->data,th->total_size); for ( idx = 0; idx< th->num_subtiles; idx++ ){ data= th_get_subtile( th, idx ); fprintf(out,":%s", *data); } fprintf(out,"\n"); } if (th->name[0]) index_submap_add(phase, th, &tiles_list); zipnum++; processed_tiles++; } next=g_list_next(next); } len--; } } static void merge_tiles(void) { struct tile_head *th; char basetile[1024]; char subtile[1024]; GList *tiles_list_sorted,*last; int i,i_min,len,size_all,size[5],size_min,work_done; long long zip_size; do { tiles_list_sorted=get_tiles_list(); fprintf(stderr,"PROGRESS: sorting %d tiles\n", g_list_length(tiles_list_sorted)); tiles_list_sorted=g_list_sort(tiles_list_sorted, (GCompareFunc)strcmp); fprintf(stderr,"PROGRESS: sorting %d tiles done\n", g_list_length(tiles_list_sorted)); last=g_list_last(tiles_list_sorted); zip_size=0; while (last) { th=g_hash_table_lookup(tile_hash, last->data); zip_size+=th->total_size; last=g_list_previous(last); } fprintf(stderr,"DEBUG: size=%Ld\n", zip_size); last=g_list_last(tiles_list_sorted); work_done=0; while (last) { processed_tiles++; len=strlen(last->data); if (len >= 1) { strcpy(basetile,last->data); basetile[len-1]='\0'; strcpy(subtile,last->data); for (i = 0 ; i < 4 ; i++) { subtile[len-1]='a'+i; size[i]=tile_data_size(subtile); } size[4]=tile_data_size(basetile); size_all=size[0]+size[1]+size[2]+size[3]+size[4]; if (size_all < 65536 && size_all > 0 && size_all != size[4]) { for (i = 0 ; i < 4 ; i++) { subtile[len-1]='a'+i; work_done+=merge_tile(basetile, subtile); } } else { for (;;) { size_min=size_all; i_min=-1; for (i = 0 ; i < 4 ; i++) { if (size[i] && size[i] < size_min) { size_min=size[i]; i_min=i; } } if (i_min == -1) break; if (size[4]+size_min >= 65536) break; subtile[len-1]='a'+i_min; work_done+=merge_tile(basetile, subtile); size[4]+=size[i_min]; size[i_min]=0; } } } last=g_list_previous(last); } g_list_free(tiles_list_sorted); fprintf(stderr,"PROGRESS: merged %d tiles\n", work_done); } while (work_done); } struct country_index_item { struct item_bin item; struct attr_bin attr_country_id; int country_id; struct attr_bin attr_zipfile_ref; int zipfile_ref; }; static void index_country_add(int phase, int country_id, int zipnum) { struct country_index_item ii; char *index_tile=""; ii.item.len=sizeof(ii)/4-1; ii.item.type=type_countryindex; ii.item.clen=0; ii.attr_country_id.len=2; ii.attr_country_id.type=attr_country_id; ii.country_id=country_id; ii.attr_zipfile_ref.len=2; ii.attr_zipfile_ref.type=attr_zipfile_ref; ii.zipfile_ref=zipnum; if (phase == 3) tile_extend(index_tile, (struct item_bin *)&ii, NULL); else write_item(index_tile, (struct item_bin *)&ii); } #ifdef GENERATE_INDEX struct aux_tile { char *name; char *filename; int size; }; static int add_aux_tile(int phase, char *name, char *filename, int size) { struct aux_tile *at; if (phase == 3) { at=g_new0(struct aux_tile, 1); at->name=g_strdup(name); at->filename=g_strdup(filename); at->size=size; aux_tile_list=g_list_append(aux_tile_list, at); } return zipnum++; } static int write_aux_tiles(FILE *out, FILE *dir_out, int compression_level, int namelen) { GList *l=aux_tile_list; struct aux_tile *at; char *buffer; FILE *f; int count=0; while (l) { at=l->data; buffer=malloc(at->size); assert(buffer != NULL); f=fopen(at->filename,"r"); assert(f != NULL); fread(buffer, at->size, 1, f); fclose(f); write_zipmember(out, dir_out, at->name, namelen, buffer, at->size, compression_level); count++; l=g_list_next(l); } return count; } static void write_countrydir(int phase, int maxnamelen) { int i,zipnum; int max=11; char tilename[32]; char searchtile[32]; char filename[32]; struct country_table *co; for (i = 0 ; i < sizeof(country_table)/sizeof(struct country_table) ; i++) { co=&country_table[i]; if (co->size) { tilename[0]='\0'; tile(&co->r, tilename, max); sprintf(searchtile,"%ss%d", tilename, 0); sprintf(filename,"country_%d.bin", co->countryid); zipnum=add_aux_tile(phase, searchtile, filename, co->size); index_country_add(phase,co->countryid,zipnum); } } } static void remove_countryfiles(void) { int i; char filename[32]; struct country_table *co; for (i = 0 ; i < sizeof(country_table)/sizeof(struct country_table) ; i++) { co=&country_table[i]; if (co->size) { sprintf(filename,"country_%d.bin", co->countryid); unlink(filename); } } } #endif static int phase34(int phase, int maxnamelen, FILE *ways_in, FILE *nodes_in, FILE *tilesdir_out) { processed_nodes=processed_nodes_out=processed_ways=processed_relations=processed_tiles=0; bytes_read=0; sig_alrm(0); if (phase == 3) tile_hash=g_hash_table_new(g_str_hash, g_str_equal); if (ways_in) phase34_process_file(phase, ways_in); if (nodes_in) phase34_process_file(phase, nodes_in); fprintf(stderr,"read %d bytes\n", bytes_read); if (phase == 3) merge_tiles(); sig_alrm(0); alarm(0); write_tilesdir(phase, maxnamelen, tilesdir_out); return 0; } static void dump_coord(struct coord *c) { printf("0x%x 0x%x",c->x, c->y); } static void dump(FILE *in) { struct item_bin *ib; struct coord *c; struct attr_bin *a; struct attr attr; int *attr_start; int *attr_end; int i; char *str; while ((ib=read_item(in))) { c=(struct coord *)(ib+1); if (ib->type < type_line) { dump_coord(c); printf(" "); } attr_start=(int *)(ib+1)+ib->clen; attr_end=(int *)ib+ib->len+1; printf("type=%s", item_to_name(ib->type)); while (attr_start < attr_end) { a=(struct attr_bin *)(attr_start); attr_start+=a->len+1; attr.type=a->type; attr_data_set(&attr, (a+1)); str=attr_to_text(&attr, NULL, 1); printf(" %s=\"%s\"", attr_to_name(a->type), str); g_free(str); } printf(" debug=\"length=%d\"", ib->len); printf("\n"); if (ib->type >= type_line) { for (i = 0 ; i < ib->clen/2 ; i++) { dump_coord(c+i); printf("\n"); } } } } static int phase3(FILE *ways_in, FILE *nodes_in, FILE *tilesdir_out) { return phase34(3, 0, ways_in, nodes_in, tilesdir_out); } static long long zipoffset; static int zipdir_size; static int compress2_int(Byte *dest, uLongf *destLen, const Bytef *source, uLong sourceLen, int level) { z_stream stream; int err; stream.next_in = (Bytef*)source; stream.avail_in = (uInt)sourceLen; stream.next_out = dest; stream.avail_out = (uInt)*destLen; if ((uLong)stream.avail_out != *destLen) return Z_BUF_ERROR; stream.zalloc = (alloc_func)0; stream.zfree = (free_func)0; stream.opaque = (voidpf)0; err = deflateInit2(&stream, level, Z_DEFLATED, -15, 9, Z_DEFAULT_STRATEGY); if (err != Z_OK) return err; err = deflate(&stream, Z_FINISH); if (err != Z_STREAM_END) { deflateEnd(&stream); return err == Z_OK ? Z_BUF_ERROR : err; } *destLen = stream.total_out; err = deflateEnd(&stream); return err; } static void write_zipmember(FILE *out, FILE *dir_out, char *name, int filelen, char *data, int data_size, int compression_level) { struct zip_lfh lfh = { 0x04034b50, 0x0a, 0x0, 0x0, 0xbe2a, 0x5d37, 0x0, 0x0, 0x0, filelen, 0x0, }; struct zip_cd cd = { 0x02014b50, 0x17, 0x00, 0x0a, 0x00, 0x0000, 0x0, 0xbe2a, 0x5d37, 0x0, 0x0, 0x0, filelen, 0x0000, 0x0000, 0x0000, 0x0000, 0x0, zipoffset, }; char filename[filelen+1]; int error,crc,len,comp_size=data_size; uLongf destlen=data_size+data_size/500+12; char compbuffer[destlen]; crc=crc32(0, NULL, 0); crc=crc32(crc, (unsigned char *)data, data_size); if (compression_level) { error=compress2_int((Byte *)compbuffer, &destlen, (Bytef *)data, data_size, compression_level); if (error == Z_OK) { if (destlen < data_size) { data=compbuffer; comp_size=destlen; } } else { fprintf(stderr,"compress2 returned %d\n", error); } } lfh.zipcrc=crc; lfh.zipsize=comp_size; lfh.zipuncmp=data_size; lfh.zipmthd=compression_level ? 8:0; cd.zipccrc=crc; cd.zipcsiz=comp_size; cd.zipcunc=data_size; cd.zipcmthd=compression_level ? 8:0; strcpy(filename, name); len=strlen(filename); while (len < filelen) { filename[len++]='_'; } filename[filelen]='\0'; fwrite(&lfh, sizeof(lfh), 1, out); fwrite(filename, filelen, 1, out); fwrite(data, comp_size, 1, out); zipoffset+=sizeof(lfh)+filelen+comp_size; fwrite(&cd, sizeof(cd), 1, dir_out); fwrite(filename, filelen, 1, dir_out); zipdir_size+=sizeof(cd)+filelen; } static int process_slice(FILE *ways_in, FILE *nodes_in, int size, int maxnamelen, FILE *out, FILE *dir_out, int compression_level) { struct tile_head *th; char *slice_data,*zip_data; int zipfiles=0; slice_data=malloc(size); assert(slice_data != NULL); zip_data=slice_data; th=tile_head_root; while (th) { if (th->process) { th->zip_data=zip_data; zip_data+=th->total_size; } th=th->next; } if (ways_in) fseek(ways_in, 0, SEEK_SET); if (nodes_in) fseek(nodes_in, 0, SEEK_SET); phase34(4, maxnamelen, ways_in, nodes_in, NULL); th=tile_head_root; while (th) { if (th->process) { #ifdef GENERATE_INDEX if (! strlen(th->name)) zipfiles+=write_aux_tiles(out, dir_out, compression_level, maxnamelen); #endif if (th->total_size != th->total_size_used) { fprintf(stderr,"Size error '%s': %d vs %d\n", th->name, th->total_size, th->total_size_used); exit(1); } else { if (strlen(th->name)) write_zipmember(out, dir_out, th->name, maxnamelen, th->zip_data, th->total_size, compression_level); else { write_zipmember(out, dir_out, "index", sizeof("index")-1, th->zip_data, th->total_size, compression_level); } zipfiles++; } } th=th->next; } free(slice_data); return zipfiles; } static void cat(FILE *in, FILE *out) { size_t size; char buffer[4096]; while ((size=fread(buffer, 1, 4096, in))) fwrite(buffer, 1, size, out); } static int phase4(FILE *ways_in, FILE *nodes_in, FILE *out, FILE *dir_out, int compression_level) { int slice_size=1024*1024*1024; int maxnamelen,size,slices; int zipfiles=0; struct tile_head *th,*th2; struct zip_eoc eoc = { 0x06054b50, 0x0000, 0x0000, 0x0000, 0x0000, 0x0, 0x0, 0x0, }; maxnamelen=create_tile_hash(); th=tile_head_root; size=0; slices=0; fprintf(stderr, "Maximum slice size %d\n", slice_size); while (th) { if (size + th->total_size > slice_size) { fprintf(stderr,"Slice %d is of size %d\n", slices, size); size=0; slices++; } size+=th->total_size; th=th->next; } if (size) fprintf(stderr,"Slice %d is of size %d\n", slices, size); th=tile_head_root; size=0; slices=0; while (th) { th2=tile_head_root; while (th2) { th2->process=0; th2=th2->next; } size=0; while (th && size+th->total_size < slice_size) { size+=th->total_size; th->process=1; th=th->next; } zipfiles+=process_slice(ways_in, nodes_in, size, maxnamelen, out, dir_out, compression_level); slices++; } fseek(dir_out, 0, SEEK_SET); cat(dir_out, out); eoc.zipenum=zipfiles; eoc.zipecenn=zipfiles; eoc.zipecsz=zipdir_size; eoc.zipeofst=zipoffset; fwrite(&eoc, sizeof(eoc), 1, out); sig_alrm(0); alarm(0); return 0; } static void usage(FILE *f) { /* DEVELOPPERS : don't forget to update the manpage if you modify theses options */ fprintf(f,"\n"); fprintf(f,"osm2navit - parse osm textfile and converts to NavIt binfile format\n\n"); fprintf(f,"Usage :\n"); fprintf(f,"bzcat planet.osm.bz2 | osm2navit mymap.bin\n"); fprintf(f,"Available switches:\n"); fprintf(f,"-h (--help) : this screen\n"); fprintf(f,"-N (--nodes-only) : process only nodes\n"); fprintf(f,"-W (--ways-only) : process only ways\n"); fprintf(f,"-a (--attr-debug-level) : control which data is included in the debug attribute\n"); fprintf(f,"-c (--dump-coordinates) : dump coordinates after phase 1\n"); #ifdef HAVE_POSTGRESQL fprintf(f,"-d (--db) : get osm data out of a postgresql database with osm simple scheme and given connect string\n"); #endif fprintf(f,"-e (--end) : end at specified phase\n"); fprintf(f,"-k (--keep-tmpfiles) : do not delete tmp files after processing. useful to reuse them\n\n"); fprintf(f,"-o (--coverage) : map every street to item overage\n"); fprintf(f,"-s (--start) : start at specified phase\n"); fprintf(f,"-i (--input-file) : specify the input file name (OSM), overrules default stdin\n"); fprintf(f,"-w (--dedupe-ways) : ensure no duplicate ways or nodes. useful when using several input files\n"); fprintf(f,"-z (--compression-level) : set the compression level\n"); exit(1); } static void process_binfile(FILE *in, FILE *out) { struct item_bin *ib; while ((ib=read_item(in))) { fwrite(ib, (ib->len+1)*4, 1, out); } } int main(int argc, char **argv) { FILE *ways=NULL,*ways_split=NULL,*nodes=NULL,*tilesdir,*zipdir,*res; char *map=g_strdup(attrmap); int i,c,start=1,end=4,dump_coordinates=0; int keep_tmpfiles=0; int process_nodes=1, process_ways=1; int compression_level=9; int output=0; int input=0; char *result,*dbstr=NULL; FILE* input_file = stdin; struct plugins *plugins=NULL; struct attr **attrs; struct map *map_handle=NULL; while (1) { #if 0 int this_option_optind = optind ? optind : 1; #endif int option_index = 0; static struct option long_options[] = { {"attr-debug-level", 1, 0, 'a'}, {"binfile", 0, 0, 'b'}, {"compression-level", 1, 0, 'z'}, {"coverage", 0, 0, 'o'}, #ifdef HAVE_POSTGRESQL {"db", 1, 0, 'd'}, #endif {"dedupe-ways", 0, 0, 'w'}, {"dump", 0, 0, 'D'}, {"dump-coordinates", 0, 0, 'c'}, {"end", 1, 0, 'e'}, {"help", 0, 0, 'h'}, {"keep-tmpfiles", 0, 0, 'k'}, {"nodes-only", 0, 0, 'N'}, {"map", 1, 0, 'm'}, {"plugin", 1, 0, 'p'}, {"start", 1, 0, 's'}, {"input-file", 1, 0, 'i'}, {"ignore-unknown", 0, 0, 'n'}, {"ways-only", 0, 0, 'W'}, {0, 0, 0, 0} }; c = getopt_long (argc, argv, "DNWa:bc" #ifdef HAVE_POSTGRESQL "d:" #endif "e:hi:knm:p:s:w", long_options, &option_index); if (c == -1) break; switch (c) { case 'D': output=1; break; case 'N': process_ways=0; break; case 'W': process_nodes=0; break; case 'a': attr_debug_level=atoi(optarg); break; case 'b': input=1; break; case 'c': dump_coordinates=1; break; #ifdef HAVE_POSTGRESQL case 'd': dbstr=optarg; break; #endif case 'e': end=atoi(optarg); break; case 'h': usage(stdout); break; case 'm': attrs=(struct attr*[]){ &(struct attr){attr_type,{"textfile"}}, &(struct attr){attr_data,{"bookmark.txt"}}, NULL}; map_handle=map_new(attrs); fprintf(stderr,"optarg=%s\n", optarg); break; case 'n': fprintf(stderr,"I will IGNORE unknown types\n"); ignore_unkown=1; break; case 'k': fprintf(stderr,"I will KEEP tmp files\n"); keep_tmpfiles=1; break; case 'o': coverage=1; break; case 'p': if (! plugins) plugins=plugins_new(); fprintf(stderr,"optarg=%s\n",optarg); attrs=(struct attr*[]){&(struct attr){attr_path,{optarg}},NULL}; plugins_add_path(plugins, attrs); break; case 's': start=atoi(optarg); break; case 'w': dedupe_ways_hash=g_hash_table_new(NULL, NULL); break; case 'i': input_file = fopen( optarg, "r" ); if ( input_file == NULL ) { fprintf( stderr, "\nInput file (%s) not found\n", optarg ); exit( -1 ); } break; case 'z': compression_level=atoi(optarg); break; case '?': usage(stderr); break; default: fprintf(stderr,"c=%d\n", c); } } if (optind != argc-(output == 1 ? 0:1)) usage(stderr); if (plugins) plugins_init(plugins); result=argv[optind]; build_attrmap(map); #ifdef GENERATE_INDEX build_countrytable(); #endif if (input == 0) { if (start == 1) { if (process_ways) ways=fopen("ways.tmp","wb+"); if (process_nodes) nodes=fopen("nodes.tmp","wb+"); phase=1; fprintf(stderr,"PROGRESS: Phase 1: collecting data\n"); #ifdef HAVE_POSTGRESQL if (dbstr) phase1_db(dbstr,ways,nodes); else #endif if (map_handle) { phase1_map(map_handle,ways,nodes); map_destroy(map_handle); } else phase1(input_file,ways,nodes); if (ways) fclose(ways); if (nodes) fclose(nodes); #ifdef GENERATE_INDEX fprintf(stderr,"PROGRESS: Phase 1: sorting countries\n"); sort_countries(); #endif } if (end == 1 || dump_coordinates) save_buffer("coords.tmp",&node_buffer); if (end == 1) exit(0); if (start == 2) load_buffer("coords.tmp",&node_buffer); if (start <= 2) { if (process_ways) { ways=fopen("ways.tmp","rb"); ways_split=fopen("ways_split.tmp","wb+"); phase=2; fprintf(stderr,"PROGRESS: Phase 2: finding intersections\n"); phase2(ways,ways_split); fclose(ways_split); fclose(ways); if(!keep_tmpfiles) remove("ways.tmp"); } else fprintf(stderr,"PROGRESS: Skipping Phase 2\n"); } free(node_buffer.base); node_buffer.base=NULL; node_buffer.malloced=0; node_buffer.size=0; if (end == 2) exit(0); } else { ways_split=fopen("ways_split.tmp","wb+"); process_binfile(stdin, ways_split); fclose(ways_split); } if (output == 1) { fprintf(stderr,"PROGRESS: Phase 3: dumping\n"); if (process_nodes) { nodes=fopen("nodes.tmp","rb"); if (nodes) { dump(nodes); fclose(nodes); } } if (process_ways) { ways_split=fopen("ways_split.tmp","rb"); if (ways_split) { dump(ways_split); fclose(ways_split); } } exit(0); } if (start <= 3) { phase=3; fprintf(stderr,"PROGRESS: Phase 3: generating tiles\n"); if (process_ways) ways_split=fopen("ways_split.tmp","rb"); if (process_nodes) nodes=fopen("nodes.tmp","rb"); tilesdir=fopen("tilesdir.tmp","wb+"); phase3(ways_split,nodes,tilesdir); fclose(tilesdir); if (nodes) fclose(nodes); if (ways_split) fclose(ways_split); } if (end == 3) exit(0); if (start <= 4) { phase=4; fprintf(stderr,"PROGRESS: Phase 4: assembling map\n"); if (process_ways) ways_split=fopen("ways_split.tmp","rb"); if (process_nodes) nodes=fopen("nodes.tmp","rb"); res=fopen(result,"wb+"); zipdir=fopen("zipdir.tmp","wb+"); phase4(ways_split,nodes,res,zipdir,compression_level); fclose(zipdir); fclose(res); if (nodes) fclose(nodes); if (ways_split) fclose(ways_split); if(!keep_tmpfiles) { remove("nodes.tmp"); remove("ways_split.tmp"); remove("tilesdir.tmp"); remove("zipdir.tmp"); #ifdef GENERATE_INDEX remove_countryfiles(); #endif } } return 0; }