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/**
* 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.
*/
#include <stdio.h>
#include <string.h>
#include <glib.h>
#include "coord.h"
#include "debug.h"
#include "item.h"
#include "map.h"
#include "transform.h"
struct item_name {
enum item_type item;
char *name;
};
struct item_range item_range_all = { type_none, type_last };
struct default_flags {
enum item_type type;
int flags;
};
struct item busy_item;
struct default_flags default_flags2[]={
{type_street_nopass, AF_PBH},
{type_street_0, AF_ALL},
{type_street_1_city, AF_ALL},
{type_street_2_city, AF_ALL},
{type_street_3_city, AF_ALL},
{type_street_4_city, AF_ALL},
{type_highway_city, AF_MOTORIZED_FAST},
{type_street_1_land, AF_ALL},
{type_street_2_land, AF_ALL},
{type_street_3_land, AF_ALL},
{type_street_4_land, AF_ALL},
{type_street_n_lanes, AF_MOTORIZED_FAST},
{type_highway_land, AF_MOTORIZED_FAST},
{type_ramp, AF_MOTORIZED_FAST},
{type_roundabout, AF_ALL},
{type_ferry, AF_ALL},
{type_cycleway, AF_PBH},
{type_track_paved, AF_ALL},
{type_track_gravelled, AF_ALL},
{type_track_unpaved, AF_ALL},
{type_track_ground, AF_ALL},
{type_track_grass, AF_ALL},
{type_footway, AF_PBH},
{type_living_street, AF_ALL},
{type_street_service, AF_ALL},
{type_street_parking_lane, AF_ALL},
{type_bridleway, AF_PBH},
{type_path, AF_PBH},
{type_steps, AF_PBH},
{type_street_pedestrian, AF_PBH},
{type_hiking_mountain, AF_PEDESTRIAN},
{type_hiking_mountain_demanding, AF_PEDESTRIAN},
{type_hiking, AF_PEDESTRIAN},
{type_hiking_alpine, AF_PEDESTRIAN},
{type_hiking_alpine_demanding, AF_PEDESTRIAN},
{type_hiking_alpine_difficult, AF_PEDESTRIAN},
};
struct item_name item_names[]={
#define ITEM2(x,y) ITEM(y)
#define ITEM(x) { type_##x, #x },
#include "item_def.h"
#undef ITEM2
#undef ITEM
};
static GHashTable *default_flags_hash;
static GHashTable *item_hash;
void
item_create_hash(void)
{
int i;
item_hash=g_hash_table_new(g_str_hash, g_str_equal);
for (i=0 ; i < sizeof(item_names)/sizeof(struct item_name) ; i++) {
g_hash_table_insert(item_hash, item_names[i].name, GINT_TO_POINTER(item_names[i].item));
}
}
void
item_destroy_hash(void)
{
g_hash_table_destroy(item_hash);
item_hash=NULL;
}
int *
item_get_default_flags(enum item_type type)
{
if (!default_flags_hash) {
int i;
default_flags_hash=g_hash_table_new(NULL, NULL);
for (i = 0 ; i < sizeof(default_flags2)/sizeof(struct default_flags); i++) {
g_hash_table_insert(default_flags_hash, (void *)(long)default_flags2[i].type, &default_flags2[i].flags);
}
}
return g_hash_table_lookup(default_flags_hash, (void *)(long)type);
}
void
item_cleanup(void)
{
if (default_flags_hash)
g_hash_table_destroy(default_flags_hash);
}
/**
* @brief Resets the "coordinate pointer" of an item
*
* This function resets the "coordinate pointer" of an item to point to the first coordinate pair,
* so that at the next call to {@code item_coord_get()} the first coordinates will be returned.
*
* @param it The map item whose pointer is to be reset. This must be the active item, i.e. the last one retrieved from the
* {@code map_rect}. There can only be one active item per {@code map_rect}.
*/
void
item_coord_rewind(struct item *it)
{
it->meth->item_coord_rewind(it->priv_data);
}
/**
* @brief Gets the next coordinates from an item
*
* This function returns a list of coordinates from an item and advances the "coordinate pointer"
* by the number of coordinates returned, so that at the next call the next coordinates will be returned.
*
* Coordinates are stored in the projection of the item's map. If you need them in a different projection,
* call {@code item_coord_get_pro()} instead.
*
* @param it The map item whose coordinates to retrieve. This must be the active item, i.e. the last one retrieved from the
* {@code map_rect}. There can only be one active item per {@code map_rect}.
* @param c Points to a buffer that will receive the coordinates.
* The buffer must be at least {@code count * sizeof(struct coord)} bytes in size.
* @param count The number of coordinates to retrieve. Attempts to read past the
* end are handled gracefully and only the available number of coordinates is
* returned.
*
* @return The number of coordinates actually retrieved and stored in {@code c}
*/
int
item_coord_get(struct item *it, struct coord *c, int count)
{
return it->meth->item_coord_get(it->priv_data, c, count);
}
int
item_coord_set(struct item *it, struct coord *c, int count, enum change_mode mode)
{
if (!it->meth->item_coord_set)
return 0;
return it->meth->item_coord_set(it->priv_data, c, count, mode);
}
int
item_coord_get_within_selection(struct item *it, struct coord *c, int count, struct map_selection *sel)
{
int i,ret=it->meth->item_coord_get(it->priv_data, c, count);
struct coord_rect r;
struct map_selection *curr;
if (ret <= 0 || !sel)
return ret;
r.lu=c[0];
r.rl=c[0];
for (i = 1 ; i < ret ; i++) {
if (r.lu.x > c[i].x)
r.lu.x=c[i].x;
if (r.rl.x < c[i].x)
r.rl.x=c[i].x;
if (r.rl.y > c[i].y)
r.rl.y=c[i].y;
if (r.lu.y < c[i].y)
r.lu.y=c[i].y;
}
curr=sel;
while (curr) {
struct coord_rect *sr=&curr->u.c_rect;
if (r.lu.x <= sr->rl.x && r.rl.x >= sr->lu.x &&
r.lu.y >= sr->rl.y && r.rl.y <= sr->lu.y)
return ret;
curr=curr->next;
}
return 0;
}
/**
* @brief Gets the next coordinates from an item and reprojects them
*
* This function returns a list of coordinates from an item and advances the "coordinate pointer"
* by the number of coordinates returned, so that at the next call the next coordinates will be returned.
*
* @param it The map item whose coordinates to retrieve. This must be the active item, i.e. the last one retrieved from the
* {@code map_rect}. There can only be one active item per {@code map_rect}.
* @param c Points to a buffer that will receive the coordinates.
* The buffer must be at least {@code count * sizeof(struct coord)} bytes in size.
* @param count The number of coordinates to retrieve. Attempts to read past the
* end are handled gracefully and only the available number of coordinates is
* returned.
* @param projection The projection into which the coordinates will be transformed
*
* @return The number of coordinates actually retrieved and stored in {@code c}
*/
int
item_coord_get_pro(struct item *it, struct coord *c, int count, enum projection to)
{
int ret=item_coord_get(it, c, count);
int i;
enum projection from=map_projection(it->map);
if (from != to)
for (i = 0 ; i < count ; i++)
transform_from_to(c+i, from, c+i, to);
return ret;
}
int
item_coord_is_node(struct item *it)
{
if (it->meth->item_coord_is_node)
return it->meth->item_coord_is_node(it->priv_data);
return 0;
}
void
item_attr_rewind(struct item *it)
{
it->meth->item_attr_rewind(it->priv_data);
}
int
item_attr_get(struct item *it, enum attr_type attr_type, struct attr *attr)
{
return it->meth->item_attr_get(it->priv_data, attr_type, attr);
}
int
item_attr_set(struct item *it, struct attr *attr, enum change_mode mode)
{
if (!it->meth->item_attr_set)
return 0;
return it->meth->item_attr_set(it->priv_data, attr, mode);
}
/**
* @brief Set map item type.
*
* @param it reference to the item.
* @param type New type for the item. Setting it to type_none is expected to delete item from the map.
* @return Non-zero if this action is supported by the map and type is set successfully, 0 on error.
*/
int
item_type_set(struct item *it, enum item_type type)
{
if (!it->meth->item_type_set)
return 0;
return it->meth->item_type_set(it->priv_data, type);
}
struct item * item_new(char *type, int zoom)
{
struct item * it;
it = g_new0(struct item, 1);
/* FIXME evaluate arguments */
return it;
}
enum item_type
item_from_name(const char *name)
{
int i;
if (item_hash)
return GPOINTER_TO_INT(g_hash_table_lookup(item_hash, name));
for (i=0 ; i < sizeof(item_names)/sizeof(struct item_name) ; i++) {
if (! strcmp(item_names[i].name, name))
return item_names[i].item;
}
return type_none;
}
char *
item_to_name(enum item_type item)
{
int i;
for (i=0 ; i < sizeof(item_names)/sizeof(struct item_name) ; i++) {
if (item_names[i].item == item)
return item_names[i].name;
}
return NULL;
}
struct item_hash {
GHashTable *h;
};
static guint
item_hash_hash(gconstpointer key)
{
const struct item *itm=key;
gconstpointer hashkey=(gconstpointer)GINT_TO_POINTER(itm->id_hi^itm->id_lo^(GPOINTER_TO_INT(itm->map)));
return g_direct_hash(hashkey);
}
static gboolean
item_hash_equal(gconstpointer a, gconstpointer b)
{
const struct item *itm_a=a;
const struct item *itm_b=b;
if (item_is_equal(*itm_a, *itm_b))
return TRUE;
return FALSE;
}
unsigned int
item_id_hash(const void *key)
{
const struct item_id *id=key;
return id->id_hi^id->id_lo;
}
int
item_id_equal(const void *a, const void *b)
{
const struct item_id *id_a=a;
const struct item_id *id_b=b;
return (id_a->id_hi == id_b->id_hi && id_a->id_lo == id_b->id_lo);
}
/**
* @brief Derive item id_lo and id_hi from pointer, considering pointer could be 32 or 64 bit wide but both ids are 32 bit.
*
* @param it reference to the item.
* @param id pointer to derive item id from.
* @return Nothing.
*/
void
item_id_from_ptr(struct item *item, void *id)
{
#if !defined(__LP64__) && !defined(__LLP64__) && !defined(WIN64)
item->id_lo=(int) id;
item->id_hi=0;
#else
# ifndef _MSC_VER
item->id_lo=((long long)id)&0xFFFFFFFFll;
# else
item->id_lo=((long long)id)&0xFFFFFFFFi64;
# endif
item->id_hi=((long long)id)>>32;
#endif
}
struct item_hash *
item_hash_new(void)
{
struct item_hash *ret=g_new(struct item_hash, 1);
ret->h=g_hash_table_new_full(item_hash_hash, item_hash_equal, g_free, NULL);
return ret;
}
void
item_hash_insert(struct item_hash *h, struct item *item, void *val)
{
struct item *hitem=g_new(struct item, 1);
*hitem=*item;
dbg(2,"inserting (0x%x,0x%x) into %p\n", item->id_hi, item->id_lo, h->h);
g_hash_table_insert(h->h, hitem, val);
}
int
item_hash_remove(struct item_hash *h, struct item *item)
{
int ret;
dbg(2,"removing (0x%x,0x%x) from %p\n", item->id_hi, item->id_lo, h->h);
ret=g_hash_table_remove(h->h, item);
dbg(2,"ret=%d\n", ret);
return ret;
}
void *
item_hash_lookup(struct item_hash *h, struct item *item)
{
return g_hash_table_lookup(h->h, item);
}
void
item_hash_destroy(struct item_hash *h)
{
g_hash_table_destroy(h->h);
g_free(h);
}
int
item_range_intersects_range(struct item_range *range1, struct item_range *range2)
{
if (range1->max < range2->min)
return 0;
if (range1->min > range2->max)
return 0;
return 1;
}
int
item_range_contains_item(struct item_range *range, enum item_type type)
{
if (type >= range->min && type <= range->max)
return 1;
return 0;
}
void
item_dump_attr(struct item *item, struct map *map, FILE *out)
{
struct attr attr;
fprintf(out,"type=%s", item_to_name(item->type));
while (item_attr_get(item, attr_any, &attr))
fprintf(out," %s='%s'", attr_to_name(attr.type), attr_to_text(&attr, map, 1));
}
void
item_dump_filedesc(struct item *item, struct map *map, FILE *out)
{
int i,count,max=16384;
struct coord *ca=g_alloca(sizeof(struct coord)*max);
count=item_coord_get(item, ca, item->type < type_line ? 1: max);
if (item->type < type_line)
fprintf(out,"mg:0x%x 0x%x ", ca[0].x, ca[0].y);
item_dump_attr(item, map, out);
fprintf(out,"\n");
if (item->type >= type_line)
for (i = 0 ; i < count ; i++)
fprintf(out,"mg:0x%x 0x%x\n", ca[i].x, ca[i].y);
}
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