#include "profile.h"
#include "coord.h"
#include "projection.h"
+#include "item.h"
#include "map.h"
#include "mapset.h"
-#include "item.h"
#include "route.h"
#include "track.h"
#include "point.h"
#include "transform.h"
#include "plugin.h"
#include "fib.h"
+#include "event.h"
+#include "callback.h"
struct map_priv {
struct coord c; /**< Coordinates of this point */
};
+
+/**
+ * @brief A segment in the route graph or path
+ *
+ * This is a segment in the route graph or path. A segment represents a driveable way.
+ */
+
+struct route_segment_data {
+ struct item item; /**< The item (e.g. street) that this segment represents. */
+ int flags;
+ int len; /**< Length of this segment */
+ /*NOTE: After a segment, various fields may follow, depending on what flags are set. Order of fields:
+ 1.) maxspeed Maximum allowed speed on this segment. Present if AF_SPEED_LIMIT is set.
+ 2.) offset If the item is segmented (i.e. represented by more than one segment), this
+ indicates the position of this segment in the item. Present if AF_SEGMENTED is set.
+ */
+};
+
+#define RSD_OFFSET(x) *((int *)route_segment_data_field_pos((x), attr_offset))
+#define RSD_MAXSPEED(x) *((int *)route_segment_data_field_pos((x), attr_maxspeed))
+
+
+
/**
* @brief A segment in the route graph
*
* same point. Start of this list is in route_graph_point->end. */
struct route_graph_point *start; /**< Pointer to the point this segment starts at. */
struct route_graph_point *end; /**< Pointer to the point this segment ends at. */
- struct item item; /**< The item (e.g. street) that this segment represents. */
- int flags;
- int len; /**< Length of this segment */
- int offset; /**< If the item represented by this segment is "segmented" (i.e.
- * is represented by several segments instead of just one), this
- * indicates the position of this segment in the item - for items
- * that are not segmented this should always be 1 */
+ struct route_segment_data data; /**< The segment data */
};
/**
*/
struct route_path_segment {
struct route_path_segment *next; /**< Pointer to the next segment in the path */
- struct item item; /**< The item (e.g. street) this segment represents */
- int length; /**< Length of the segment */
- int offset; /**< Same as in route_graph_segment->offset */
+ struct route_segment_data *data; /**< The segment data */
int direction; /**< Order in which the coordinates are ordered. >0 means "First
* coordinate of the segment is the first coordinate of the item", <=0
* means reverse. */
unsigned ncoords; /**< How many coordinates does this segment have? */
- struct attr **attrs; /**< Attributes of this route path segment */
struct coord c[0]; /**< Pointer to the ncoords coordinates of this segment */
/* WARNING: There will be coordinates following here, so do not create new fields after c! */
};
int lenpos; /**< Distance between lp and the end of the street */
int lenneg; /**< Distance between lp and the start of the street */
int lenextra; /**< Distance between lp and c */
-
+ int percent; /**< ratio of lenneg to lenght of whole street in percent */
struct street_data *street; /**< The street lp is on */
};
* This structure describes a whole routing path
*/
struct route_path {
+ int in_use; /**< The path is in use and can not be updated */
+ int update_required; /**< The path needs to be updated after it is no longer in use */
+ int updated; /**< The path has only been updated */
struct route_path_segment *path; /**< The first segment in the path, i.e. the segment one should
* drive in next */
struct route_path_segment *path_last; /**< The last segment in the path */
#define RF_SHOWGRAPH (1<<5)
/**
+ * @brief Routing preferences
+ *
+ * This struct holds all information about route preferences (fastest, shortest, etc)
+ */
+
+struct route_preferences {
+ int mode; /**< 0 = Auto, 1 = On-Road, 2 = Off-Road */
+ int flags_forward_mask; /**< Flags mask for moving in positive direction */
+ int flags_reverse_mask; /**< Flags mask for moving in reverse direction */
+ int flags; /**< Required flags to move through a segment */
+ int maxspeed_handling; /**< 0 = Always, 1 = Only if lower, 2 = Never */
+ int speedlist[route_item_last-route_item_first+1]; /**< The speedlist for this route */
+};
+
+/**
* @brief A complete route
*
* This struct holds all information about a route.
*/
struct route {
- int version; /**< Counts how many times this route got updated */
struct mapset *ms; /**< The mapset this route is built upon */
unsigned flags;
struct route_info *pos; /**< Current position within this route */
struct route_graph *graph; /**< Pointer to the route graph */
struct route_path *path2; /**< Pointer to the route path */
- struct map *map;
+ struct map *map;
struct map *graph_map;
- int speedlist[route_item_last-route_item_first+1]; /**< The speedlist for this route */
+ struct callback * route_graph_done_cb ; /**< Callback when route graph is done */
+ struct callback * route_graph_flood_done_cb ; /**< Callback when route graph flooding is done */
+ struct callback_list *cbl; /**< Callback list to call when route changes */
+ int destination_distance; /**< Distance to the destination at which the destination is considered "reached" */
+ struct route_preferences preferences; /**< Routing preferences */
};
/**
* This structure describes a whole routing graph
*/
struct route_graph {
+ int busy; /**< The graph is being built */
+ struct map_selection *sel; /**< The rectangle selection for the graph */
+ struct mapset_handle *h; /**< Handle to the mapset */
+ struct map *m; /**< Pointer to the currently active map */
+ struct map_rect *mr; /**< Pointer to the currently active map rectangle */
+ struct callback *idle_cb; /**< Idle callback to process the graph */
+ struct callback *done_cb; /**< Callback when graph is done */
+ struct event_idle *idle_ev; /**< The pointer to the idle event */
struct route_graph_point *route_points; /**< Pointer to the first route_graph_point in the linked list of all points */
struct route_graph_segment *route_segments; /**< Pointer to the first route_graph_segment in the linked list of all segments */
#define HASH_SIZE 8192
#define HASHCOORD(c) ((((c)->x +(c)->y) * 2654435761UL) & (HASH_SIZE-1))
+/**
+ * @brief Iterator to iterate through all route graph segments in a route graph point
+ *
+ * This structure can be used to iterate through all route graph segments connected to a
+ * route graph point. Use this with the rp_iterator_* functions.
+ */
+struct route_graph_point_iterator {
+ struct route_graph_point *p; /**< The route graph point whose segments should be iterated */
+ int end; /**< Indicates if we have finished iterating through the "start" segments */
+ struct route_graph_segment *next; /**< The next segment to be returned */
+};
+
static struct route_info * route_find_nearest_street(struct mapset *ms, struct pcoord *c);
static struct route_graph_point *route_graph_get_point(struct route_graph *this, struct coord *c);
-static void route_graph_update(struct route *this);
-static struct route_path *route_path_new(struct route_graph *this, struct route_path *oldpath, struct route_info *pos, struct route_info *dst, int *speedlist);
+static void route_graph_update(struct route *this, struct callback *cb);
+static void route_graph_build_done(struct route_graph *rg, int cancel);
+static struct route_path *route_path_new(struct route_graph *this, struct route_path *oldpath, struct route_info *pos, struct route_info *dst, struct route_preferences *pref);
static void route_process_street_graph(struct route_graph *this, struct item *item);
static void route_graph_destroy(struct route_graph *this);
-static void route_path_update(struct route *this);
+static void route_path_update(struct route *this, int cancel);
/**
* @brief Returns the projection used for this route
static enum projection route_projection(struct route *route)
{
struct street_data *street;
+ if (!route->pos && !route->dst)
+ return projection_none;
street = route->pos ? route->pos->street : route->dst->street;
+ if (!street || !street->item.map)
+ return projection_none;
return map_projection(street->item.map);
}
/**
+ * @brief Creates a new graph point iterator
+ *
+ * This function creates a new route graph point iterator, that can be used to
+ * iterate through all segments connected to the point.
+ *
+ * @param p The route graph point to create the iterator from
+ * @return A new iterator.
+ */
+static struct route_graph_point_iterator
+rp_iterator_new(struct route_graph_point *p)
+{
+ struct route_graph_point_iterator it;
+
+ it.p = p;
+ if (p->start) {
+ it.next = p->start;
+ it.end = 0;
+ } else {
+ it.next = p->end;
+ it.end = 1;
+ }
+
+ return it;
+}
+
+/**
+ * @brief Gets the next segment connected to a route graph point from an iterator
+ *
+ * @param it The route graph point iterator to get the segment from
+ * @return The next segment or NULL if there are no more segments
+ */
+static struct route_graph_segment
+*rp_iterator_next(struct route_graph_point_iterator *it)
+{
+ struct route_graph_segment *ret;
+
+ ret = it->next;
+ if (!ret) {
+ return NULL;
+ }
+
+ if (!it->end) {
+ if (ret->start_next) {
+ it->next = ret->start_next;
+ } else {
+ it->next = it->p->end;
+ it->end = 1;
+ }
+ } else {
+ it->next = ret->end_next;
+ }
+
+ return ret;
+}
+
+/**
+ * @brief Checks if the last segment returned from a route_graph_point_iterator comes from the end
+ *
+ * @param it The route graph point iterator to be checked
+ * @return 1 if the last segment returned comes from the end of the route graph point, 0 otherwise
+ */
+static int
+rp_iterator_end(struct route_graph_point_iterator *it) {
+ if (it->end && (it->next != it->p->end)) {
+ return 1;
+ } else {
+ return 0;
+ }
+}
+
+/**
* @brief Destroys a route_path
*
* @param this The route_path to be destroyed
* @return The newly created route
*/
struct route *
-route_new(struct attr **attrs)
+route_new(struct attr *parent, struct attr **attrs)
{
struct route *this=g_new0(struct route, 1);
- if (!this) {
- printf("%s:Out of memory\n", __FUNCTION__);
- return NULL;
+ struct attr dest_attr;
+
+ if (attr_generic_get_attr(attrs, NULL, attr_destination_distance, &dest_attr, NULL)) {
+ this->destination_distance = dest_attr.u.num;
+ } else {
+ this->destination_distance = 50; // Default value
}
+ this->cbl=callback_list_new();
+ this->preferences.flags_forward_mask=AF_ONEWAYREV|AF_CAR;
+ this->preferences.flags_reverse_mask=AF_ONEWAY|AF_CAR;
+ this->preferences.flags=AF_CAR;
+
return this;
}
/**
+ * @brief Checks if a segment is part of a roundabout
+ *
+ * This function checks if a segment is part of a roundabout.
+ *
+ * @param seg The segment to be checked
+ * @param level How deep to scan the route graph
+ * @param direction Set this to 1 if we're entering the segment through its end, to 0 otherwise
+ * @param origin Used internally, set to NULL
+ * @return 1 If a roundabout was detected, 0 otherwise
+ */
+static int
+route_check_roundabout(struct route_graph_segment *seg, int level, int direction, struct route_graph_segment *origin)
+{
+ struct route_graph_point_iterator it,it2;
+ struct route_graph_segment *cur;
+ int count=0;
+
+ if (!level) {
+ return 0;
+ }
+ if (!direction && !(seg->data.flags & AF_ONEWAY)) {
+ return 0;
+ }
+ if (direction && !(seg->data.flags & AF_ONEWAYREV)) {
+ return 0;
+ }
+
+ if (!origin) {
+ origin = seg;
+ }
+
+ if (!direction) {
+ it = rp_iterator_new(seg->end);
+ } else {
+ it = rp_iterator_new(seg->start);
+ }
+ it2=it;
+
+ while ((cur = rp_iterator_next(&it2)))
+ count++;
+
+ if (count > 3)
+ return 0;
+ cur = rp_iterator_next(&it);
+ while (cur) {
+ if (cur == seg) {
+ cur = rp_iterator_next(&it);
+ continue;
+ }
+
+ if (cur->data.item.type != origin->data.item.type) {
+ // This street is of another type, can't be part of the roundabout
+ cur = rp_iterator_next(&it);
+ continue;
+ }
+
+ if (cur == origin) {
+ seg->data.flags |= AF_ROUNDABOUT;
+ return 1;
+ }
+
+ if (route_check_roundabout(cur, (level-1), rp_iterator_end(&it), origin)) {
+ seg->data.flags |= AF_ROUNDABOUT;
+ return 1;
+ }
+
+ cur = rp_iterator_next(&it);
+ }
+
+ return 0;
+}
+
+/**
* @brief Sets the mapset of the route passwd
*
* @param this The route to set the mapset for
int *
route_get_speedlist(struct route *this)
{
- return this->speedlist;
+ return this->preferences.speedlist;
}
/**
dbg(0,"street type %d out of range [%d,%d]", type, route_item_first, route_item_last);
return 0;
}
- this->speedlist[type-route_item_first]=value;
+ this->preferences.speedlist[type-route_item_first]=value;
return 1;
}
int
route_pos_contains(struct route *this, struct item *item)
{
- if (! this->pos)
+ if (! this->pos || !this->pos->street)
return 0;
return item_is_equal(this->pos->street->item, *item);
}
/**
+ * @brief Checks if a route has reached its destination
+ *
+ * @param this The route to be checked
+ * @return True if the destination is "reached", false otherwise.
+ */
+int
+route_destination_reached(struct route *this)
+{
+ struct street_data *sd = NULL;
+ enum projection pro;
+
+ if (!this->pos)
+ return 0;
+
+ sd = this->pos->street;
+
+ if (!this->path2) {
+ return 0;
+ }
+
+ if (!item_is_equal(this->pos->street->item, this->dst->street->item)) {
+ return 0;
+ }
+
+ if ((sd->flags & AF_ONEWAY) && (this->pos->lenneg >= this->dst->lenneg)) { // We would have to drive against the one-way road
+ return 0;
+ }
+ if ((sd->flags & AF_ONEWAYREV) && (this->pos->lenpos >= this->dst->lenpos)) {
+ return 0;
+ }
+ pro=route_projection(this);
+ if (pro == projection_none)
+ return 0;
+
+ if (transform_distance(pro, &this->pos->c, &this->dst->lp) > this->destination_distance) {
+ return 0;
+ }
+
+ return 1;
+}
+
+static void
+route_path_update_done(struct route *this, int new_graph)
+{
+ struct route_path *oldpath=this->path2;
+ int val;
+ if (this->path2 && this->path2->in_use) {
+ this->path2->update_required=1+new_graph;
+ return;
+ }
+
+ this->path2=route_path_new(this->graph, oldpath, this->pos, this->dst, &this->preferences);
+ route_path_destroy(oldpath);
+ if (this->path2) {
+ if (new_graph)
+ val=4;
+ else
+ val=2+!this->path2->updated;
+ } else
+ val=1;
+ callback_list_call_attr_1(this->cbl, attr_route, (void *)val);
+}
+
+/**
* @brief Updates the route graph and the route path if something changed with the route
*
* This will update the route graph and the route path of the route if some of the
* @param this The route to update
*/
static void
-route_path_update(struct route *this)
+route_path_update(struct route *this, int cancel)
{
- struct route_path *oldpath = NULL;
+ dbg(1,"enter %d\n", cancel);
if (! this->pos || ! this->dst) {
+ dbg(1,"destroy\n");
route_path_destroy(this->path2);
this->path2 = NULL;
return;
}
+ if (cancel) {
+ route_graph_destroy(this->graph);
+ this->graph=NULL;
+ }
/* the graph is destroyed when setting the destination */
- if (this->graph && this->pos && this->dst && this->path2) {
+ if (this->graph) {
+ if (this->graph->busy) {
+ dbg(1,"busy building graph\n");
+ return;
+ }
// we can try to update
- oldpath = this->path2;
+ dbg(1,"try update\n");
+ route_path_update_done(this, 0);
+ } else {
+ route_path_destroy(this->path2);
this->path2 = NULL;
}
- if (! this->graph || !(this->path2=route_path_new(this->graph, oldpath, this->pos, this->dst, this->speedlist))) {
- profile(0,NULL);
- route_graph_update(this);
- this->path2=route_path_new(this->graph, oldpath, this->pos, this->dst, this->speedlist);
- profile(1,"route_path_new");
- profile(0,"end");
- }
- if (oldpath) {
- /* Destroy what's left */
- route_path_destroy(oldpath);
+ if (!this->graph || !this->path2) {
+ dbg(1,"rebuild graph\n");
+ if (! this->route_graph_flood_done_cb)
+ this->route_graph_flood_done_cb=callback_new_2(callback_cast(route_path_update_done), this, 1);
+ dbg(1,"route_graph_update\n");
+ route_graph_update(this, this->route_graph_flood_done_cb);
}
}
ri->lenextra=transform_distance(pro, &ri->lp, &ri->c);
ri->lenneg=transform_polyline_length(pro, sd->c, npos)+transform_distance(pro, &sd->c[ri->pos], &ri->lp);
ri->lenpos=transform_polyline_length(pro, sd->c+npos, sd->count-npos)+transform_distance(pro, &sd->c[npos], &ri->lp);
+ if (ri->lenneg || ri->lenpos)
+ ri->percent=(ri->lenneg*100)/(ri->lenneg+ri->lenpos);
+ else
+ ri->percent=50;
}
/**
if (! this->pos)
return;
route_info_distances(this->pos, pos->pro);
- if (this->dst)
- route_path_update(this);
+ route_path_update(this, 0);
}
/**
void
route_set_position_from_tracking(struct route *this, struct tracking *tracking)
{
- struct coord *c;
+ struct pcoord *c;
struct route_info *ret;
+ struct street_data *sd;
dbg(2,"enter\n");
c=tracking_get_pos(tracking);
if (this->pos)
route_info_free(this->pos);
this->pos=NULL;
- ret->c=*c;
- ret->lp=*c;
+ ret->c.x = c->x;
+ ret->c.y = c->y;
+ ret->lp.x=c->x;
+ ret->lp.y=c->y;
ret->pos=tracking_get_segment_pos(tracking);
- ret->street=street_data_dup(tracking_get_street_data(tracking));
- route_info_distances(ret, projection_mg);
+ sd=tracking_get_street_data(tracking);
+ if (sd) {
+ ret->street=street_data_dup(sd);
+ route_info_distances(ret, c->pro);
+ }
dbg(3,"c->x=0x%x, c->y=0x%x pos=%d item=(0x%x,0x%x)\n", c->x, c->y, ret->pos, ret->street->item.id_hi, ret->street->item.id_lo);
dbg(3,"street 0=(0x%x,0x%x) %d=(0x%x,0x%x)\n", ret->street->c[0].x, ret->street->c[0].y, ret->street->count-1, ret->street->c[ret->street->count-1].x, ret->street->c[ret->street->count-1].y);
this->pos=ret;
if (this->dst)
- route_path_update(this);
+ route_path_update(this, 0);
dbg(2,"ret\n");
}
printf("%s:Out of memory\n", __FUNCTION__);
return sel;
}
- sel->order[layer_town]=0;
- sel->order[layer_poly]=0;
- sel->order[layer_street]=order;
+ sel->order=order;
+ sel->range.min=route_item_first;
+ sel->range.max=route_item_last;
dbg(1,"%p %p\n", c1, c2);
dx=c1->x-c2->x;
dy=c1->y-c2->y;
d=dx*sx;
else
d=dy*sy;
- m=d*rel/100+abs;
+ m=d*rel/100+abs;
sel->u.c_rect.lu.x-=m;
sel->u.c_rect.rl.x+=m;
sel->u.c_rect.lu.y+=m;
this->dst=NULL;
if (dst) {
this->dst=route_find_nearest_street(this->ms, dst);
- route_info_distances(this->dst, dst->pro);
- }
+ if(this->dst)
+ route_info_distances(this->dst, dst->pro);
+ } else
+ callback_list_call_attr_1(this->cbl, attr_route, (void *)0);
profile(1,"find_nearest_street");
/* The graph has to be destroyed and set to NULL, otherwise route_path_update() doesn't work */
route_graph_destroy(this->graph);
this->graph=NULL;
- route_path_update(this);
+ route_path_update(this, 1);
profile(0,"end");
}
}
/**
+ * @brief Returns the position of a certain field appended to a route graph segment
+ *
+ * This function returns a pointer to a field that is appended to a route graph
+ * segment.
+ *
+ * @param seg The route graph segment the field is appended to
+ * @param type Type of the field that should be returned
+ * @return A pointer to a field of a certain type, or NULL if no such field is present
+ */
+static void *
+route_segment_data_field_pos(struct route_segment_data *seg, enum attr_type type)
+{
+ unsigned char *ptr;
+
+ ptr = ((unsigned char*)seg) + sizeof(struct route_segment_data);
+
+ if (seg->flags & AF_SPEED_LIMIT) {
+ if (type == attr_maxspeed)
+ return (void*)ptr;
+ ptr += sizeof(int);
+ }
+ if (seg->flags & AF_SEGMENTED) {
+ if (type == attr_offset)
+ return (void*)ptr;
+ ptr += sizeof(int);
+ }
+ return NULL;
+}
+
+/**
+ * @brief Calculates the size of a route_segment_data struct with given flags
+ *
+ * @param flags The flags of the route_segment_data
+ */
+
+static int
+route_segment_data_size(int flags)
+{
+ int ret=sizeof(struct route_segment_data);
+ if (flags & AF_SPEED_LIMIT)
+ ret+=sizeof(int);
+ if (flags & AF_SEGMENTED)
+ ret+=sizeof(int);
+ return ret;
+}
+
+
+/**
* @brief Inserts a new segment into the route graph
*
* This function performs a check if a segment for the item specified already exists, and inserts
* @param item The item that is represented by this segment
* @param flags Flags for this segment
* @param offset If the item passed in "item" is segmented (i.e. divided into several segments), this indicates the position of this segment within the item
+ * @param maxspeed The maximum speed allowed on this segment in km/h. -1 if not known.
*/
static void
route_graph_add_segment(struct route_graph *this, struct route_graph_point *start,
struct route_graph_point *end, int len, struct item *item,
- int flags, int offset)
+ int flags, int offset, int maxspeed)
{
struct route_graph_segment *s;
+ int size;
s=start->start;
while (s) {
- if (item_is_equal(*item, s->item))
- return;
+ if (item_is_equal(*item, s->data.item)) {
+ if (flags & AF_SEGMENTED) {
+ if (RSD_OFFSET(&s->data) == offset) {
+ return;
+ }
+ } else
+ return;
+ }
s=s->start_next;
- }
- s = g_new0(struct route_graph_segment, 1);
+ }
+
+ size = sizeof(struct route_graph_segment)-sizeof(struct route_segment_data)+route_segment_data_size(flags);
+ s = g_malloc0(size);
if (!s) {
printf("%s:Out of memory\n", __FUNCTION__);
return;
s->end=end;
s->end_next=end->end;
end->end=s;
- g_assert(len >= 0);
- s->len=len;
- s->item=*item;
- s->flags=flags;
- s->offset = offset;
+ dbg_assert(len >= 0);
+ s->data.len=len;
+ s->data.item=*item;
+ s->data.flags=flags;
+
+ if (flags & AF_SPEED_LIMIT)
+ RSD_MAXSPEED(&s->data)=maxspeed;
+ if (flags & AF_SEGMENTED)
+ RSD_OFFSET(&s->data)=offset;
+
s->next=this->route_segments;
this->route_segments=s;
if (debug_route)
* @param max Maximum number of coordinates to return
* @param start First coordinate to get
* @param end Last coordinate to get
+ * @return The number of coordinates returned
*/
static int get_item_seg_coords(struct item *i, struct coord *c, int max,
struct coord *start, struct coord *end)
route_extract_segment_from_path(struct route_path *path, struct item *item,
int offset)
{
+ int soffset;
struct route_path_segment *sp = NULL, *s;
s = path->path;
while (s) {
- if (s->offset == offset && item_is_equal(s->item,*item)) {
- if (sp) {
- sp->next = s->next;
- break;
- } else {
- path->path = s->next;
- break;
+ if (item_is_equal(s->data->item,*item)) {
+ if (s->data->flags & AF_SEGMENTED)
+ soffset=RSD_OFFSET(s->data);
+ else
+ soffset=1;
+ if (soffset == offset) {
+ if (sp) {
+ sp->next = s->next;
+ break;
+ } else {
+ path->path = s->next;
+ break;
+ }
}
}
sp = s;
}
/**
- * @brief Adds a new item to a path
+ * @brief Adds a two coordinate line to a path
*
- * This adds a new item to a path, creating a new segment for it. Please note that this function does not check
- * if the item passed is segmented - it will create exactly one segment.
+ * This adds a new line to a path, creating a new segment for it.
*
* @param this The path to add the item to
- * @param item The item to add
+ * @param start coordinate to add to the start of the item. If none should be added, make this NULL.
+ * @param end coordinate to add to the end of the item. If none should be added, make this NULL.
* @param len The length of the item
- * @param first (Optional) coordinate to add to the start of the item. If none should be added, make this NULL.
- * @param c Pointer to count coordinates of the item.
- * @param cound Number of coordinates in c
- * @param last (Optional) coordinate to add to the end of the item. If none should be added, make this NULL.
- * @param dir Direction to add the coordinates in. Greater than zero means "start with the first coordinate in c", all other values mean "start with the last coordinate in c"
*/
static void
-route_path_add_item(struct route_path *this, struct item *item, int len, struct coord *first, struct coord *c, int count, struct coord *last, int dir)
+route_path_add_line(struct route_path *this, struct coord *start, struct coord *end, int len)
{
- int i,idx=0,ccount=count + (first ? 1:0) + (last ? 1:0);
+ int ccnt=2;
struct route_path_segment *segment;
-
- segment=g_malloc0(sizeof(*segment) + sizeof(struct coord) * ccount);
- segment->ncoords=ccount;
- segment->direction=dir;
- if (first)
- segment->c[idx++]=*first;
- if (dir > 0) {
- for (i = 0 ; i < count ; i++)
- segment->c[idx++]=c[i];
- } else {
- for (i = 0 ; i < count ; i++)
- segment->c[idx++]=c[count-i-1];
- }
- if (last)
- segment->c[idx++]=*last;
- segment->length=len;
- if (item)
- segment->item=*item;
+ int seg_size,seg_dat_size;
+
+ seg_size=sizeof(*segment) + sizeof(struct coord) * ccnt;
+ seg_dat_size=sizeof(struct route_segment_data);
+ segment=g_malloc0(seg_size + seg_dat_size);
+ segment->data=(struct route_segment_data *)((char *)segment+seg_size);
+ segment->ncoords=ccnt;
+ segment->direction=0;
+ segment->c[0]=*start;
+ segment->c[1]=*end;
+ segment->data->len=len;
route_path_add_segment(this, segment);
}
/**
* @brief Inserts a new item into the path
*
- * This function does almost the same as "route_apth_add_item()", but identifies
+ * This function does almost the same as "route_path_add_item()", but identifies
* the item to add by a segment from the route graph. Another difference is that it "copies" the
* segment from the route graph, i.e. if the item is segmented, only the segment passed in rgs will
* be added to the route path, not all segments of the item.
* @param this The path to add the item to
* @param oldpath Old path containing the segment to be added. Speeds up the function, but can be NULL.
* @param rgs Segment of the route graph that should be "copied" to the route path
- * @param len Length of the item to be added
- * @param offset Offset of rgs within the item it represents
* @param dir Order in which to add the coordinates. See route_path_add_item()
- * @param straight Indicates if this segment is being entered "straight". See route_check_straight().
+ * @param pos Information about start point if this is the first segment
+ * @param dst Information about end point if this is the last segment
*/
-static void
-route_path_add_item_from_graph(struct route_path *this, struct route_path *oldpath,
- struct route_graph_segment *rgs, int len, int offset, int dir, int straight)
+
+static int
+route_path_add_item_from_graph(struct route_path *this, struct route_path *oldpath, struct route_graph_segment *rgs, int dir, struct route_info *pos, struct route_info *dst)
{
struct route_path_segment *segment;
- int i,ccnt = 0;
- struct coord ca[2048];
- struct attr straight_attr;
-
- if (oldpath) {
- ccnt = (int)item_hash_lookup(oldpath->path_hash, &rgs->item);
- if (ccnt) {
- segment = route_extract_segment_from_path(oldpath,
- &rgs->item, offset);
-
- if (segment)
+ int i, ccnt, extra=0, ret=1;
+ struct coord *c,*cd,ca[2048];
+ int offset=1;
+ int seg_size,seg_dat_size;
+ if (rgs->data.flags & AF_SEGMENTED)
+ offset=RSD_OFFSET(&rgs->data);
+
+ dbg(1,"enter (0x%x,0x%x) dir=%d pos=%p dst=%p\n", rgs->data.item.id_hi, rgs->data.item.id_lo, dir, pos, dst);
+ if (oldpath && !pos) {
+ segment=item_hash_lookup(oldpath->path_hash, &rgs->data.item);
+ if (segment && segment->direction == dir) {
+ segment = route_extract_segment_from_path(oldpath, &rgs->data.item, offset);
+ if (segment)
goto linkold;
}
}
- ccnt = get_item_seg_coords(&rgs->item, ca, 2047, &rgs->start->c, &rgs->end->c);
- segment= g_malloc0(sizeof(*segment) + sizeof(struct coord) * ccnt);
- if (!segment) {
- printf("%s:Out of memory\n", __FUNCTION__);
- return;
+ if (pos) {
+ if (dst) {
+ extra=2;
+ if (dst->lenneg >= pos->lenneg) {
+ dir=1;
+ ccnt=dst->pos-pos->pos;
+ c=pos->street->c+pos->pos+1;
+ } else {
+ dir=-1;
+ ccnt=pos->pos-dst->pos;
+ c=pos->street->c+dst->pos+1;
+ }
+ } else {
+ extra=1;
+ dbg(1,"pos dir=%d\n", dir);
+ dbg(1,"pos pos=%d\n", pos->pos);
+ dbg(1,"pos count=%d\n", pos->street->count);
+ if (dir > 0) {
+ c=pos->street->c+pos->pos+1;
+ ccnt=pos->street->count-pos->pos-1;
+ } else {
+ c=pos->street->c;
+ ccnt=pos->pos+1;
+ }
+ }
+ } else if (dst) {
+ extra=1;
+ dbg(1,"dst dir=%d\n", dir);
+ dbg(1,"dst pos=%d\n", dst->pos);
+ if (dir > 0) {
+ c=dst->street->c;
+ ccnt=dst->pos+1;
+ } else {
+ c=dst->street->c+dst->pos+1;
+ ccnt=dst->street->count-dst->pos-1;
+ }
+ } else {
+ ccnt=get_item_seg_coords(&rgs->data.item, ca, 2047, &rgs->start->c, &rgs->end->c);
+ c=ca;
}
+ seg_size=sizeof(*segment) + sizeof(struct coord) * (ccnt + extra);
+ seg_dat_size=route_segment_data_size(rgs->data.flags);
+ segment=g_malloc0(seg_size + seg_dat_size);
+ segment->data=(struct route_segment_data *)((char *)segment+seg_size);
segment->direction=dir;
- if (dir > 0) {
- for (i = 0 ; i < ccnt ; i++)
- segment->c[i]=ca[i];
- } else {
- for (i = 0 ; i < ccnt ; i++)
- segment->c[i]=ca[ccnt-i-1];
+ cd=segment->c;
+ if (pos && (c[0].x != pos->lp.x || c[0].y != pos->lp.y))
+ *cd++=pos->lp;
+ if (dir < 0)
+ c+=ccnt-1;
+ for (i = 0 ; i < ccnt ; i++) {
+ *cd++=*c;
+ c+=dir;
+ }
+ segment->ncoords+=ccnt;
+ if (dst && (cd[-1].x != dst->lp.x || cd[-1].y != dst->lp.y))
+ *cd++=dst->lp;
+ segment->ncoords=cd-segment->c;
+
+ /* We check if the route graph segment is part of a roundabout here, because this
+ * only matters for route graph segments which form parts of the route path */
+ if (!(rgs->data.flags & AF_ROUNDABOUT)) { // We identified this roundabout earlier
+ route_check_roundabout(rgs, 13, (dir < 1), NULL);
}
- segment->ncoords = ccnt;
- segment->item=rgs->item;
- segment->offset = offset;
-linkold:
- segment->length=len;
- segment->next=NULL;
- item_hash_insert(this->path_hash, &rgs->item, (void *)ccnt);
- straight_attr.type = attr_route_follow_straight;
- straight_attr.u.num = straight;
+ ret=0;
+ memcpy(segment->data, &rgs->data, seg_dat_size);
- segment->attrs = attr_generic_set_attr(segment->attrs, &straight_attr);
+linkold:
+ segment->data->len=rgs->data.len;
+ segment->next=NULL;
+ item_hash_insert(this->path_hash, &rgs->data.item, segment);
route_path_add_segment(this, segment);
+
+ return ret;
}
/**
route_graph_destroy(struct route_graph *this)
{
if (this) {
+ route_graph_build_done(this, 1);
route_graph_free_points(this);
route_graph_free_segments(this);
g_free(this);
/**
* @brief Returns the time needed to drive len on item
*
- * @param speedlist The speedlist that should be used
- * @param item The item to be driven on
- * @param len The length to drive
- * @return The time needed to drive len on item
+ * This function returns the time needed to drive len meters on
+ * the item passed in item in tenth of seconds.
+ *
+ * @param preferences The routing preferences
+ * @param over The segment which is passed
+ * @return The time needed to drive len on item in thenth of senconds
*/
-int
-route_time(int *speedlist, struct item *item, int len)
+
+static int
+route_time_seg(struct route_preferences *preferences, struct route_segment_data *over)
{
- if (item->type < route_item_first || item->type > route_item_last) {
- dbg(0,"street type %d out of range [%d,%d]", item->type, route_item_first, route_item_last);
- return len*36;
- }
- return len*36/speedlist[item->type-route_item_first];
+ int pspeed=preferences->speedlist[over->item.type-route_item_first];
+ int speed=pspeed;
+ if (preferences->maxspeed_handling != 2 && (over->flags & AF_SPEED_LIMIT)) {
+ speed=RSD_MAXSPEED(over);
+ if (preferences->maxspeed_handling == 1 && speed > pspeed)
+ speed=pspeed;
+ } else
+ speed=preferences->speedlist[over->item.type-route_item_first];
+ if (!speed)
+ return INT_MAX;
+ return over->len*36/speed;
}
/**
- * @brief Returns the "costs" of driving len on item
+ * @brief Returns the "costs" of driving from point from over segment over in direction dir
*
- * @param speedlist The speedlist that should be used
- * @param item The item to be driven on
- * @param len The length to drive
+ * @param preferences The routing preferences
+ * @param from The point where we are starting
+ * @param over The segment we are using
+ * @param dir The direction of segment which we are driving
* @return The "costs" needed to drive len on item
*/
+
static int
-route_value(int *speedlist, struct item *item, int len)
+route_value_seg(struct route_preferences *preferences, struct route_graph_point *from, struct route_segment_data *over, int dir)
{
- int ret;
- if (len < 0) {
- printf("len=%d\n", len);
- }
- g_assert(len >= 0);
- ret=route_time(speedlist, item, len);
- dbg(1, "route_value(0x%x, %d)=%d\n", item->type, len, ret);
- return ret;
+#if 0
+ dbg(0,"flags 0x%x mask 0x%x flags 0x%x\n", over->flags, dir >= 0 ? preferences->flags_forward_mask : preferences->flags_reverse_mask, preferences->flags);
+#endif
+ if ((over->flags & (dir >= 0 ? preferences->flags_forward_mask : preferences->flags_reverse_mask)) != preferences->flags)
+ return INT_MAX;
+ return route_time_seg(preferences, over);
}
/**
#endif
struct route_graph_point *s_pnt,*e_pnt;
struct coord c,l;
- struct attr attr;
+ struct attr flags_attr, maxspeed_attr;
int flags = 0;
int segmented = 0;
int offset = 1;
-
+ int maxspeed = -1;
+
if (item_coord_get(item, &l, 1)) {
- if (item_attr_get(item, attr_flags, &attr)) {
- flags = attr.u.num;
+ if (item_attr_get(item, attr_flags, &flags_attr)) {
+ flags = flags_attr.u.num;
if (flags & AF_SEGMENTED)
segmented = 1;
+ } else
+ flags = default_flags[item->type-route_item_first];
+
+
+ if (flags & AF_SPEED_LIMIT) {
+ if (item_attr_get(item, attr_maxspeed, &maxspeed_attr)) {
+ maxspeed = maxspeed_attr.u.num;
+ }
}
+
s_pnt=route_graph_add_point(this,&l);
if (!segmented) {
while (item_coord_get(item, &c, 1)) {
l=c;
}
e_pnt=route_graph_add_point(this,&l);
- g_assert(len >= 0);
- route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset);
+ dbg_assert(len >= 0);
+ route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset, maxspeed);
} else {
int isseg,rc;
int sc = 0;
do {
- isseg = item_coord_is_segment(item);
+ isseg = item_coord_is_node(item);
rc = item_coord_get(item, &c, 1);
if (rc) {
len+=transform_distance(map_projection(item->map), &l, &c);
l=c;
if (isseg) {
e_pnt=route_graph_add_point(this,&l);
- route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset);
+ route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset, maxspeed);
offset++;
s_pnt=route_graph_add_point(this,&l);
len = 0;
}
} while(rc);
e_pnt=route_graph_add_point(this,&l);
- g_assert(len >= 0);
+ dbg_assert(len >= 0);
sc++;
- route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset);
+ route_graph_add_segment(this, s_pnt, e_pnt, len, item, flags, offset, maxspeed);
}
}
}
return p1->value-p2->value;
}
+static struct route_graph_segment *
+route_graph_get_segment(struct route_graph *graph, struct street_data *sd)
+{
+ struct route_graph_point *start=route_graph_get_point(graph, &sd->c[0]);
+ struct route_graph_segment *s;
+ s=start->start;
+ while (s) {
+ if (item_is_equal(sd->item, s->data.item))
+ return s;
+ s=s->start_next;
+ }
+ return NULL;
+}
+
/**
* @brief Calculates the routing costs for each point
*
* at this algorithm.
*/
static void
-route_graph_flood(struct route_graph *this, struct route_info *dst, int *speedlist)
+route_graph_flood(struct route_graph *this, struct route_info *dst, struct route_preferences *preferences, struct callback *cb)
{
- struct route_graph_point *p_min,*end=NULL;
+ struct route_graph_point *p_min;
struct route_graph_segment *s;
int min,new,old,val;
struct fibheap *heap; /* This heap will hold all points with "temporarily" calculated costs */
- struct street_data *sd=dst->street;
heap = fh_makeheap();
fh_setcmp(heap, compare);
+
- if (! (sd->flags & AF_ONEWAYREV)) { /* If we may drive in the direction of the coordinates of the item, the first coordinate is one starting point */
- end=route_graph_get_point(this, &sd->c[0]);
- g_assert(end != 0);
- end->value=route_value(speedlist, &sd->item, dst->lenneg);
- end->el=fh_insert(heap, end);
+ s=route_graph_get_segment(this, dst->street);
+ if (!s) {
+ dbg(0,"no segment for destination found\n");
+ return;
}
-
- if (! (sd->flags & AF_ONEWAY)) { /* If we may drive against the direction of the coordinates, the last coordinate is another starting point */
- end=route_graph_get_point(this, &sd->c[sd->count-1]);
- g_assert(end != 0);
- end->value=route_value(speedlist, &sd->item, dst->lenpos);
- end->el=fh_insert(heap, end);
+ val=route_value_seg(preferences, NULL, &s->data, 1);
+ if (val != INT_MAX) {
+ val=val*(100-dst->percent)/100;
+ s->end->seg=s;
+ s->end->value=val;
+ s->end->el=fh_insert(heap, s->end);
+ }
+ val=route_value_seg(preferences, NULL, &s->data, -1);
+ if (val != INT_MAX) {
+ val=val*dst->percent/100;
+ s->start->seg=s;
+ s->start->value=val;
+ s->start->el=fh_insert(heap, s->start);
}
-
- dbg(1,"0x%x,0x%x\n", end->c.x, end->c.y);
for (;;) {
p_min=fh_extractmin(heap); /* Starting Dijkstra by selecting the point with the minimum costs on the heap */
if (! p_min) /* There are no more points with temporarily calculated costs, Dijkstra has finished */
p_min->el=NULL; /* This point is permanently calculated now, we've taken it out of the heap */
s=p_min->start;
while (s) { /* Iterating all the segments leading away from our point to update the points at their ends */
- val=route_value(speedlist, &s->item, s->len);
-#if 0
- val+=val*2*street_route_contained(s->str->segid);
-#endif
- new=min+val;
- if (debug_route)
- printf("begin %d len %d vs %d (0x%x,0x%x)\n",new,val,s->end->value, s->end->c.x, s->end->c.y);
- if (new < s->end->value && !(s->flags & AF_ONEWAY)) { /* We've found a less costly way to reach the end of s, update it */
- s->end->value=new;
- s->end->seg=s;
- if (! s->end->el) {
- if (debug_route)
- printf("insert_end p=%p el=%p val=%d ", s->end, s->end->el, s->end->value);
- s->end->el=fh_insert(heap, s->end);
- if (debug_route)
- printf("el new=%p\n", s->end->el);
- }
- else {
- if (debug_route)
- printf("replace_end p=%p el=%p val=%d\n", s->end, s->end->el, s->end->value);
- fh_replacedata(heap, s->end->el, s->end);
+ val=route_value_seg(preferences, p_min, &s->data, -1);
+ if (val != INT_MAX) {
+ new=min+val;
+ if (debug_route)
+ printf("begin %d len %d vs %d (0x%x,0x%x)\n",new,val,s->end->value, s->end->c.x, s->end->c.y);
+ if (new < s->end->value) { /* We've found a less costly way to reach the end of s, update it */
+ s->end->value=new;
+ s->end->seg=s;
+ if (! s->end->el) {
+ if (debug_route)
+ printf("insert_end p=%p el=%p val=%d ", s->end, s->end->el, s->end->value);
+ s->end->el=fh_insert(heap, s->end);
+ if (debug_route)
+ printf("el new=%p\n", s->end->el);
+ }
+ else {
+ if (debug_route)
+ printf("replace_end p=%p el=%p val=%d\n", s->end, s->end->el, s->end->value);
+ fh_replacedata(heap, s->end->el, s->end);
+ }
}
+ if (debug_route)
+ printf("\n");
}
- if (debug_route)
- printf("\n");
s=s->start_next;
}
s=p_min->end;
while (s) { /* Doing the same as above with the segments leading towards our point */
- val=route_value(speedlist, &s->item, s->len);
- new=min+val;
- if (debug_route)
- printf("end %d len %d vs %d (0x%x,0x%x)\n",new,val,s->start->value,s->start->c.x, s->start->c.y);
- if (new < s->start->value && !(s->flags & AF_ONEWAYREV)) {
- old=s->start->value;
- s->start->value=new;
- s->start->seg=s;
- if (! s->start->el) {
- if (debug_route)
- printf("insert_start p=%p el=%p val=%d ", s->start, s->start->el, s->start->value);
- s->start->el=fh_insert(heap, s->start);
- if (debug_route)
- printf("el new=%p\n", s->start->el);
- }
- else {
- if (debug_route)
- printf("replace_start p=%p el=%p val=%d\n", s->start, s->start->el, s->start->value);
- fh_replacedata(heap, s->start->el, s->start);
+ val=route_value_seg(preferences, p_min, &s->data, 1);
+ if (val != INT_MAX) {
+ new=min+val;
+ if (debug_route)
+ printf("end %d len %d vs %d (0x%x,0x%x)\n",new,val,s->start->value,s->start->c.x, s->start->c.y);
+ if (new < s->start->value) {
+ old=s->start->value;
+ s->start->value=new;
+ s->start->seg=s;
+ if (! s->start->el) {
+ if (debug_route)
+ printf("insert_start p=%p el=%p val=%d ", s->start, s->start->el, s->start->value);
+ s->start->el=fh_insert(heap, s->start);
+ if (debug_route)
+ printf("el new=%p\n", s->start->el);
+ }
+ else {
+ if (debug_route)
+ printf("replace_start p=%p el=%p val=%d\n", s->start, s->start->el, s->start->value);
+ fh_replacedata(heap, s->start->el, s->start);
+ }
}
+ if (debug_route)
+ printf("\n");
}
- if (debug_route)
- printf("\n");
s=s->end_next;
}
}
fh_deleteheap(heap);
+ callback_call_0(cb);
+ dbg(1,"return\n");
}
/**
* @return The new path
*/
static struct route_path *
-route_path_new_offroad(struct route_graph *this, struct route_info *pos, struct route_info *dst, int dir)
+route_path_new_offroad(struct route_graph *this, struct route_info *pos, struct route_info *dst)
{
struct route_path *ret;
ret=g_new0(struct route_path, 1);
ret->path_hash=item_hash_new();
- route_path_add_item(ret, NULL, pos->lenextra+dst->lenextra, &pos->c, NULL, 0, &dst->c, 1);
-
- return ret;
-}
-
-/**
- * @brief Creates a new "trivial" route
- *
- * This function creates a new "trivial" route. A trivial route is a route that starts and ends on the same street,
- * so there is no routing needed. Depending on pos and dst it can optionally add some "offroad" part to the route.
- *
- * @param this The route graph to place the route on
- * @param pos The starting position for the new path
- * @param dst The destination of the new path
- * @param dir Direction of the coordinates to be added
- * @return The new path
- */
-static struct route_path *
-route_path_new_trivial(struct route_graph *this, struct route_info *pos, struct route_info *dst, int dir)
-{
- struct street_data *sd=pos->street;
- struct route_path *ret;
+ route_path_add_line(ret, &pos->c, &dst->c, pos->lenextra+dst->lenextra);
+ ret->updated=1;
- if (dir > 0) {
- if (pos->lenextra + dst->lenextra + pos->lenneg-dst->lenneg > transform_distance(map_projection(sd->item.map), &pos->c, &dst->c))
- return route_path_new_offroad(this, pos, dst, dir);
- } else {
- if (pos->lenextra + dst->lenextra + pos->lenpos-dst->lenpos > transform_distance(map_projection(sd->item.map), &pos->c, &dst->c))
- return route_path_new_offroad(this, pos, dst, dir);
- }
- ret=g_new0(struct route_path, 1);
- ret->path_hash=item_hash_new();
- if (pos->lenextra)
- route_path_add_item(ret, NULL, pos->lenextra, &pos->c, NULL, 0, &pos->lp, 1);
- if (dir > 0)
- route_path_add_item(ret, &sd->item, pos->lenneg-dst->lenneg, &pos->lp, sd->c+pos->pos+1, dst->pos+pos->pos, &dst->lp, 1);
- else
- route_path_add_item(ret, &sd->item, pos->lenpos-dst->lenpos, &pos->lp, sd->c+dst->pos+1, pos->pos-dst->pos, &dst->lp, -1);
- if (dst->lenextra)
- route_path_add_item(ret, NULL, dst->lenextra, &dst->lp, NULL, 0, &dst->c, 1);
return ret;
}
/**
- * @brief Calculates of two coordinates' connection
+ * @brief Returns a coordinate at a given distance
*
- * This function calculates the angle between coordinates, with north = 0
- * and east = 90.
+ * This function returns the coordinate, where the user will be if he
+ * follows the current route for a certain distance.
*
- * %FIXME This is a duplicate of road_angle() in navigation.c - combine them?
- *
- * @param c1 Coordinate 1
- * @param c2 Coordinate 2
- * @param dir Set to true if c1 is the prior, and c2 the later coordinate.
- * @return The angle of the coordinate's connection
+ * @param this_ The route we're driving upon
+ * @param dist The distance in meters
+ * @return The coordinate where the user will be in that distance
*/
-static int
-route_road_angle(struct coord *c1, struct coord *c2, int dir)
+struct coord
+route_get_coord_dist(struct route *this_, int dist)
{
- int ret=transform_get_angle_delta(c1, c2, dir);
- dbg(1, "road_angle(0x%x,0x%x - 0x%x,0x%x)=%d\n", c1->x, c1->y, c2->x, c2->y, ret);
- return ret;
-}
+ int d,l,i,len;
+ int dx,dy;
+ double frac;
+ struct route_path_segment *cur;
+ struct coord ret;
+ enum projection pro=route_projection(this_);
-/**
- * @brief Checks if entering one segment from another is a "straight" road
- *
- * This checks if one can enter seg_to from seg_from by driving "straight" - i.e.
- * if seg_to is the segment you can drive to from seg_from by steering less than
- * all to all other segments.
- *
- * This function returns true on failure, so we don't create maneuvers on every error.
- *
- * @param seg_from Segment we are driving from
- * @param seg_to Segment we are driving to
- * @return True if driving from seg_from to seg_to is "straight", false otherwise
- */
-static int
-route_check_straight(struct route_graph_segment *seg_from, struct route_graph_segment *seg_to)
-{
- struct route_graph_segment *curr;
- struct route_graph_point *conn;
- int from_angle, to_angle, curr_angle, angle_diff;
- int ccnt;
- struct coord ca[2048];
-
- if ((seg_from->end == seg_to->start) || (seg_from->end == seg_to->end)) {
- ccnt = get_item_seg_coords(&seg_from->item, ca, 2047, &seg_from->start->c, &seg_from->end->c);
- from_angle = route_road_angle(&ca[ccnt-2], &ca[ccnt-1],1);
+ d = dist;
- conn = seg_from->end;
- } else if ((seg_from->start == seg_to->start) || (seg_from->start == seg_to->end)) {
- ccnt = get_item_seg_coords(&seg_from->item, ca, 2, &seg_from->start->c, &seg_from->end->c);
- from_angle = route_road_angle(&ca[1], &ca[0],1);
-
- conn = seg_from->start;
- } else {
- // Not connected!
- return 1;
+ if (!this_->path2 || pro == projection_none) {
+ return this_->pos->c;
}
-
-
- if (seg_to->end == conn) {
- ccnt = get_item_seg_coords(&seg_to->item, ca, 2047, &seg_to->start->c, &seg_to->end->c);
- to_angle = route_road_angle(&ca[ccnt-1], &ca[ccnt-2],1);
- } else {
- ccnt = get_item_seg_coords(&seg_to->item, ca, 2, &seg_to->start->c, &seg_to->end->c);
- to_angle = route_road_angle(&ca[0], &ca[1],1);
- }
-
- angle_diff = from_angle - to_angle;
- if (angle_diff < 0) {
- angle_diff *= -1;
- }
-
-
- curr = conn->start;
- while (curr != NULL) {
- if (curr==seg_to) {
- curr = curr->start_next;
- continue;
- }
-
- ccnt = get_item_seg_coords(&curr->item, ca, 2, &curr->start->c, &curr->end->c);
- curr_angle = route_road_angle(&ca[0], &ca[1], 1);
-
- curr_angle = from_angle - curr_angle;
-
- if (curr_angle < 0) {
- curr_angle *= -1;
- }
-
-
- if (curr_angle <= angle_diff) {
- return 0;
- }
-
- curr = curr->start_next;
- }
-
- curr = conn->end;
- while (curr != NULL) {
- if (curr==seg_to) {
- curr = curr->end_next;
- continue;
- }
-
- ccnt = get_item_seg_coords(&curr->item, ca, 2047, &curr->start->c, &curr->end->c);
- curr_angle = route_road_angle(&ca[ccnt-1], &ca[ccnt-2], 1);
-
- curr_angle = from_angle - curr_angle;
-
- if (curr_angle < 0) {
- curr_angle *= -1;
- }
-
- if (curr_angle <= angle_diff) {
- return 0;
+ ret = this_->pos->c;
+ cur = this_->path2->path;
+ while (cur) {
+ if (cur->data->len < d) {
+ d -= cur->data->len;
+ } else {
+ for (i=0; i < (cur->ncoords-1); i++) {
+ l = d;
+ len = (int)transform_polyline_length(pro, (cur->c + i), 2);
+ d -= len;
+ if (d <= 0) {
+ // We interpolate a bit here...
+ frac = (double)l / len;
+
+ dx = (cur->c + i + 1)->x - (cur->c + i)->x;
+ dy = (cur->c + i + 1)->y - (cur->c + i)->y;
+
+ ret.x = (cur->c + i)->x + (frac * dx);
+ ret.y = (cur->c + i)->y + (frac * dy);
+ return ret;
+ }
+ }
+ return cur->c[(cur->ncoords-1)];
}
-
- curr = curr->end_next;
+ cur = cur->next;
}
- return 1;
+ return this_->dst->c;
}
/**
* @param oldpath (Optional) old path which may contain parts of the new part - this speeds things up a bit. May be NULL.
* @param pos The starting position of the route
* @param dst The destination of the route
- * @param speedlist The speedlist to use
+ * @param preferences The routing preferences
* @return The new route path
*/
static struct route_path *
-route_path_new(struct route_graph *this, struct route_path *oldpath, struct route_info *pos, struct route_info *dst, int *speedlist)
-{
- struct route_graph_point *start1=NULL,*start2=NULL,*start;
- struct route_graph_segment *s=NULL;
- struct route_graph_segment *lastseg = NULL;
- int is_straight;
- int len=0,segs=0;
- int seg_len;
-#if 0
- int time=0,hr,min,sec
-#endif
- unsigned int val1=0xffffffff,val2=0xffffffff;
- struct street_data *sd=pos->street;
+route_path_new(struct route_graph *this, struct route_path *oldpath, struct route_info *pos, struct route_info *dst, struct route_preferences *preferences)
+{
+ struct route_graph_segment *first,*s=NULL;
+ struct route_graph_point *start;
+ struct route_info *posinfo, *dstinfo;
+ int segs=0;
+ int val1=INT_MAX,val2=INT_MAX;
+ int val;
struct route_path *ret;
- if (item_is_equal(pos->street->item, dst->street->item)) { /* We probably don't have to leave this street and can use a trivial route */
- if (!(sd->flags & AF_ONEWAY) && pos->lenneg >= dst->lenneg) {
- return route_path_new_trivial(this, pos, dst, -1);
- }
- if (!(sd->flags & AF_ONEWAYREV) && pos->lenpos >= dst->lenpos) {
- return route_path_new_trivial(this, pos, dst, 1);
- }
- }
- if (! (sd->flags & AF_ONEWAY)) { /* Using the start of the current segment as one starting point */
- start1=route_graph_get_point(this, &sd->c[0]);
- if (! start1)
- return NULL;
- val1=start1->value+route_value(speedlist, &sd->item, pos->lenneg);
- dbg(1,"start1: %d(route)+%d=%d\n", start1->value, val1-start1->value, val1);
+ if (! pos->street || ! dst->street)
+ return NULL;
+
+ if (preferences->mode == 2 || (preferences->mode == 0 && pos->lenextra + dst->lenextra + pos->lenpos-dst->lenpos > transform_distance(map_projection(pos->street->item.map), &pos->c, &dst->c)))
+ return route_path_new_offroad(this, pos, dst);
+
+ s=route_graph_get_segment(this, pos->street);
+ if (!s) {
+ dbg(0,"no segment for position found\n");
+ return NULL;
}
- if (! (sd->flags & AF_ONEWAYREV)) { /* Using the start of the current segment as an alternative starting point */
- start2=route_graph_get_point(this, &sd->c[sd->count-1]);
- if (! start2)
- return NULL;
- val2=start2->value+route_value(speedlist, &sd->item, pos->lenpos);
- dbg(1,"start2: %d(route)+%d=%d\n", start2->value, val2-start2->value, val2);
+ val=route_value_seg(preferences, NULL, &s->data, -1);
+ if (val != INT_MAX) {
+ val=val*(100-pos->percent)/100;
+ val1=s->end->value+val;
+ }
+ val=route_value_seg(preferences, NULL, &s->data, 1);
+ if (val != INT_MAX) {
+ val=val*pos->percent/100;
+ val2=s->start->value+val;
+ }
+ if (val1 == INT_MAX && val2 == INT_MAX) {
+ dbg(0,"no route found, pos blocked\n");
+ return NULL;
}
- dbg(1,"val1=%d val2=%d\n", val1, val2);
if (val1 == val2) {
- val1=start1->start->start->value;
- val2=start2->end->end->value;
+ val1=s->end->value;
+ val2=s->start->value;
}
+ if (val1 < val2)
+ start=s->start;
+ else
+ start=s->end;
ret=g_new0(struct route_path, 1);
+ ret->updated=1;
if (pos->lenextra)
- route_path_add_item(ret, NULL, pos->lenextra, &pos->c, NULL, 0, &pos->lp, 1);
- if (start1 && (val1 < val2)) {
- start=start1;
- route_path_add_item(ret, &sd->item, pos->lenneg, &pos->lp, sd->c, pos->pos+1, NULL, -1);
- } else {
- if (start2) {
- start=start2;
- route_path_add_item(ret, &sd->item, pos->lenpos, &pos->lp, sd->c+pos->pos+1, sd->count-pos->pos-1, NULL, 1);
- } else {
- printf("no route found, pos blocked\n");
- return NULL;
- }
- }
+ route_path_add_line(ret, &pos->c, &pos->lp, pos->lenextra);
ret->path_hash=item_hash_new();
- while ((s=start->seg)) { /* following start->seg, which indicates the least costly way to reach our destination */
+ dstinfo=NULL;
+ posinfo=pos;
+ first=s;
+ while (s && !dstinfo) { /* following start->seg, which indicates the least costly way to reach our destination */
segs++;
#if 0
printf("start->value=%d 0x%x,0x%x\n", start->value, start->c.x, start->c.y);
#endif
- seg_len=s->len;
- len+=seg_len;
-
- if (lastseg) {
- is_straight = route_check_straight(lastseg,s);
- } else {
- is_straight = 0;
- }
-
if (s->start == start) {
- route_path_add_item_from_graph(ret, oldpath, s, seg_len, s->offset, 1, is_straight);
+ if (item_is_equal(s->data.item, dst->street->item) && (s->end->seg == s || !posinfo))
+ dstinfo=dst;
+ if (!route_path_add_item_from_graph(ret, oldpath, s, 1, posinfo, dstinfo))
+ ret->updated=0;
start=s->end;
} else {
- route_path_add_item_from_graph(ret, oldpath, s, seg_len, s->offset, -1, is_straight);
+ if (item_is_equal(s->data.item, dst->street->item) && (s->start->seg == s || !posinfo))
+ dstinfo=dst;
+ if (!route_path_add_item_from_graph(ret, oldpath, s, -1, posinfo, dstinfo))
+ ret->updated=0;
start=s->start;
}
-
- lastseg = s;
- }
- sd=dst->street;
- dbg(1,"start->value=%d 0x%x,0x%x\n", start->value, start->c.x, start->c.y);
- dbg(1,"dst sd->flags=%d sd->c[0]=0x%x,0x%x sd->c[sd->count-1]=0x%x,0x%x\n", sd->flags, sd->c[0].x,sd->c[0].y, sd->c[sd->count-1].x, sd->c[sd->count-1].y);
- if (start->c.x == sd->c[0].x && start->c.y == sd->c[0].y) { /* Adding a final segment to reach the destination within the destination street */
- route_path_add_item(ret, &sd->item, dst->lenneg, &dst->lp, sd->c, dst->pos+1, NULL, -1);
- } else if (start->c.x == sd->c[sd->count-1].x && start->c.y == sd->c[sd->count-1].y) {
- route_path_add_item(ret, &sd->item, dst->lenpos, &dst->lp, sd->c+dst->pos+1, sd->count-dst->pos-1, NULL, 1);
- } else {
- printf("no route found\n");
- route_path_destroy(ret);
- return NULL;
+ posinfo=NULL;
+ s=start->seg;
}
if (dst->lenextra)
- route_path_add_item(ret, NULL, dst->lenextra, &dst->lp, NULL, 0, &dst->c, 1);
+ route_path_add_line(ret, &dst->lp, &dst->c, dst->lenextra);
dbg(1, "%d segments\n", segs);
return ret;
}
+static int
+route_graph_build_next_map(struct route_graph *rg)
+{
+ do {
+ rg->m=mapset_next(rg->h, 1);
+ if (! rg->m)
+ return 0;
+ map_rect_destroy(rg->mr);
+ rg->mr=map_rect_new(rg->m, rg->sel);
+ } while (!rg->mr);
+
+ return 1;
+}
+
+static void
+route_graph_build_done(struct route_graph *rg, int cancel)
+{
+ dbg(1,"cancel=%d\n",cancel);
+ event_remove_idle(rg->idle_ev);
+ callback_destroy(rg->idle_cb);
+ map_rect_destroy(rg->mr);
+ mapset_close(rg->h);
+ route_free_selection(rg->sel);
+ rg->idle_ev=NULL;
+ rg->idle_cb=NULL;
+ rg->mr=NULL;
+ rg->h=NULL;
+ rg->sel=NULL;
+ if (! cancel)
+ callback_call_0(rg->done_cb);
+ rg->busy=0;
+}
+
+static void
+route_graph_build_idle(struct route_graph *rg)
+{
+ int count=1000;
+ struct item *item;
+
+ while (count > 0) {
+ for (;;) {
+ item=map_rect_get_item(rg->mr);
+ if (item)
+ break;
+ if (!route_graph_build_next_map(rg)) {
+ route_graph_build_done(rg, 0);
+ return;
+ }
+ }
+ if (item->type >= route_item_first && item->type <= route_item_last)
+ route_process_street_graph(rg, item);
+ count--;
+ }
+}
+
/**
* @brief Builds a new route graph from a mapset
*
* @param ms The mapset to build the route graph from
* @param c1 Corner 1 of the rectangle to use from the map
* @param c2 Corner 2 of the rectangle to use from the map
+ * @param done_cb The callback which will be called when graph is complete
* @return The new route graph.
*/
static struct route_graph *
-route_graph_build(struct mapset *ms, struct coord *c1, struct coord *c2)
+route_graph_build(struct mapset *ms, struct coord *c1, struct coord *c2, struct callback *done_cb)
{
struct route_graph *ret=g_new0(struct route_graph, 1);
- struct map_selection *sel;
- struct mapset_handle *h;
- struct map_rect *mr;
- struct map *m;
- struct item *item;
- if (!ret) {
- printf("%s:Out of memory\n", __FUNCTION__);
- return ret;
- }
- sel=route_calc_selection(c1, c2);
- h=mapset_open(ms);
- while ((m=mapset_next(h,1))) {
- mr=map_rect_new(m, sel);
- if (! mr)
- continue;
- while ((item=map_rect_get_item(mr))) {
- if (item->type >= type_street_0 && item->type <= type_ferry) {
- route_process_street_graph(ret, item);
- }
- }
- map_rect_destroy(mr);
- }
- mapset_close(h);
- route_free_selection(sel);
+ dbg(1,"enter\n");
+
+ ret->sel=route_calc_selection(c1, c2);
+ ret->h=mapset_open(ms);
+ ret->done_cb=done_cb;
+ ret->busy=1;
+ if (route_graph_build_next_map(ret)) {
+ ret->idle_cb=callback_new_1(callback_cast(route_graph_build_idle), ret);
+ ret->idle_ev=event_add_idle(50, ret->idle_cb);
+ } else
+ route_graph_build_done(ret, 0);
return ret;
}
+static void
+route_graph_update_done(struct route *this, struct callback *cb)
+{
+ route_graph_flood(this->graph, this->dst, &this->preferences, cb);
+}
+
/**
* @brief Updates the route graph
*
* @param this The route to update the graph for
*/
static void
-route_graph_update(struct route *this)
+route_graph_update(struct route *this, struct callback *cb)
{
route_graph_destroy(this->graph);
- profile(1,"graph_free");
- this->graph=route_graph_build(this->ms, &this->pos->c, &this->dst->c);
- profile(1,"route_graph_build");
- route_graph_flood(this->graph, this->dst, this->speedlist);
- profile(1,"route_graph_flood");
- this->version++;
+ callback_destroy(this->route_graph_done_cb);
+ this->route_graph_done_cb=callback_new_2(callback_cast(route_graph_update_done), this, cb);
+ callback_list_call_attr_1(this->cbl, attr_route, (void *)0);
+ this->graph=route_graph_build(this->ms, &this->pos->c, &this->dst->c, this->route_graph_done_cb);
}
/**
struct street_data *
street_get_data (struct item *item)
{
- int maxcount=10000;
- struct coord c[maxcount];
int count=0;
- struct street_data *ret;
- struct attr attr;
-
- while (count < maxcount) {
- if (!item_coord_get(item, &c[count], 1))
- break;
- count++;
- }
- if (count >= maxcount) {
- dbg(0, "count=%d maxcount=%d id_hi=0x%x id_lo=0x%x\n", count, maxcount, item->id_hi, item->id_lo);
- if (item_attr_get(item, attr_debug, &attr))
- dbg(0,"debug='%s'\n", attr.u.str);
- }
- g_assert(count < maxcount);
- ret=g_malloc(sizeof(struct street_data)+count*sizeof(struct coord));
+ struct street_data *ret = NULL, *ret1;
+ struct attr flags_attr, maxspeed_attr;
+ const int step = 128;
+ int c;
+
+ do {
+ ret1=g_realloc(ret, sizeof(struct street_data)+(count+step)*sizeof(struct coord));
+ if (!ret1) {
+ if (ret)
+ g_free(ret);
+ return NULL;
+ }
+ ret = ret1;
+ c = item_coord_get(item, &ret->c[count], step);
+ count += c;
+ } while (c && c == step);
+
+ ret1=g_realloc(ret, sizeof(struct street_data)+count*sizeof(struct coord));
+ if (ret1)
+ ret = ret1;
ret->item=*item;
ret->count=count;
- if (item_attr_get(item, attr_flags, &attr))
- ret->flags=attr.u.num;
+ if (item_attr_get(item, attr_flags, &flags_attr))
+ ret->flags=flags_attr.u.num;
else
ret->flags=0;
- memcpy(ret->c, c, count*sizeof(struct coord));
+
+ ret->maxspeed = -1;
+ if (ret->flags & AF_SPEED_LIMIT) {
+ if (item_attr_get(item, attr_maxspeed, &maxspeed_attr)) {
+ ret->maxspeed = maxspeed_attr.u.num;
+ }
+ }
return ret;
}
struct coord c;
struct coord_geo g;
- c.x = pc->x;
- c.y = pc->y;
- /*
- * This is not correct for two reasons:
- * - You may need to go back first
- * - Currently we allow mixing of mapsets
- */
- sel = route_rect(18, &c, &c, 0, max_dist);
+ ret=g_new0(struct route_info, 1);
+ mindist = INT_MAX;
+
h=mapset_open(ms);
while ((m=mapset_next(h,1))) {
c.x = pc->x;
transform_to_geo(pc->pro, &c, &g);
transform_from_geo(map_projection(m), &g, &c);
}
+ sel = route_rect(18, &c, &c, 0, max_dist);
+ if (!sel)
+ continue;
mr=map_rect_new(m, sel);
- if (! mr)
+ if (!mr) {
+ map_selection_destroy(sel);
continue;
+ }
while ((item=map_rect_get_item(mr))) {
- if (item->type >= type_street_0 && item->type <= type_ferry) {
+ if (item->type >= route_item_first && item->type <= route_item_last) {
sd=street_get_data(item);
+ if (!sd)
+ continue;
dist=transform_distance_polyline_sq(sd->c, sd->count, &c, &lp, &pos);
- if (!ret || dist < mindist) {
- if (ret) {
+ if (dist < mindist) {
+ mindist = dist;
+ if (ret->street) {
street_data_free(ret->street);
- g_free(ret);
- }
- ret=g_new(struct route_info, 1);
- if (!ret) {
- printf("%s:Out of memory\n", __FUNCTION__);
- return ret;
}
ret->c=c;
ret->lp=lp;
ret->pos=pos;
- mindist=dist;
ret->street=sd;
dbg(1,"dist=%d id 0x%x 0x%x pos=%d\n", dist, item->id_hi, item->id_lo, pos);
- } else
+ } else {
street_data_free(sd);
+ }
}
- }
+ }
+ map_selection_destroy(sel);
map_rect_destroy(mr);
}
mapset_close(h);
- map_selection_destroy(sel);
+
+ if (!ret->street || mindist > max_dist*max_dist) {
+ if (ret->street) {
+ street_data_free(ret->street);
+ dbg(1,"Much too far %d > %d\n", mindist, max_dist);
+ }
+ g_free(ret);
+ ret = NULL;
+ }
return ret;
}
struct item item;
int length;
unsigned int last_coord;
+ struct route_path *path;
struct route_path_segment *seg,*seg_next;
struct route_graph_point *point;
struct route_graph_segment *rseg;
char *str;
+ struct coord *coord_sel; /**< Set this to a coordinate if you want to filter for just a single route graph point */
+ struct route_graph_point_iterator it;
};
static void
struct map_rect_priv *mr = priv_data;
struct route_path_segment *seg=mr->seg;
struct route *route=mr->mpriv->route;
+ if (mr->item.type != type_street_route)
+ return 0;
attr->type=attr_type;
switch (attr_type) {
case attr_any:
return 1;
}
return 0;
+ case attr_maxspeed:
+ mr->attr_next = attr_street_item;
+ if (seg && seg->data->flags && AF_SPEED_LIMIT) {
+ attr->u.num=RSD_MAXSPEED(seg->data);
+
+ } else {
+ return 0;
+ }
+ return 1;
case attr_street_item:
- mr->attr_next=attr_route_follow_straight;
- if (seg && seg->item.map)
- attr->u.item=&seg->item;
+ mr->attr_next=attr_direction;
+ if (seg && seg->data->item.map)
+ attr->u.item=&seg->data->item;
else
return 0;
return 1;
- case attr_route_follow_straight:
- mr->attr_next=attr_direction;
- if (seg) {
- return attr_generic_get_attr(seg->attrs,NULL,attr_route_follow_straight,attr,NULL);
- }
- return 0;
case attr_direction:
- mr->attr_next=attr_length;
+ mr->attr_next=attr_route;
if (seg)
attr->u.num=seg->direction;
else
return 0;
return 1;
+ case attr_route:
+ mr->attr_next=attr_length;
+ attr->u.route = mr->mpriv->route;
+ return 1;
case attr_length:
if (seg)
- attr->u.num=seg->length;
+ attr->u.num=seg->data->len;
else
attr->u.num=mr->length;
mr->attr_next=attr_time;
return 1;
case attr_time:
mr->attr_next=attr_none;
- if (seg)
- attr->u.num=route_time(route->speedlist, &seg->item, seg->length);
- else
+ if (seg) {
+ attr->u.num=route_time_seg(&route->preferences, seg->data);
+ } else
return 0;
return 1;
+ case attr_label:
+ mr->attr_next=attr_none;
+ return 0;
default:
+ mr->attr_next=attr_none;
attr->type=attr_none;
return 0;
}
struct map_rect_priv *mr = priv_data;
struct route_path_segment *seg = mr->seg;
int i,rc=0;
+ struct route *r = mr->mpriv->route;
+ enum projection pro = route_projection(r);
+
+ if (pro == projection_none)
+ return 0;
+ if (mr->item.type == type_route_start || mr->item.type == type_route_end) {
+ if (! count || mr->last_coord)
+ return 0;
+ mr->last_coord=1;
+ if (mr->item.type == type_route_start)
+ c[0]=r->pos->c;
+ else
+ c[0]=r->dst->c;
+ return 1;
+ }
if (! seg)
return 0;
for (i=0; i < count; i++) {
break;
if (i >= seg->ncoords)
break;
- c[i] = seg->c[mr->last_coord++];
+ if (pro != projection_mg)
+ transform_from_to(&seg->c[mr->last_coord++], pro,
+ &c[i],projection_mg);
+ else
+ c[i] = seg->c[mr->last_coord++];
rc++;
}
dbg(1,"return %d\n",rc);
{
struct map_rect_priv *mr = priv_data;
struct route_graph_point *p = mr->point;
- if (mr->item.type != type_rg_point)
- return 0;
+ struct route_graph_segment *seg = mr->rseg;
switch (attr_type) {
- case attr_any:
+ case attr_any: // works only with rg_points for now
+ if (mr->item.type != type_rg_point)
+ return 0;
while (mr->attr_next != attr_none) {
- if (rm_attr_get(priv_data, mr->attr_next, attr))
+ if (rp_attr_get(priv_data, mr->attr_next, attr))
return 1;
}
+ return 0;
+ case attr_maxspeed:
+ mr->attr_next = attr_label;
+ if (mr->item.type != type_rg_segment)
+ return 0;
+ if (seg && (seg->data.flags & AF_SPEED_LIMIT)) {
+ attr->type = attr_maxspeed;
+ attr->u.num=RSD_MAXSPEED(&seg->data);
+ return 1;
+ } else {
+ return 0;
+ }
case attr_label:
+ if (mr->item.type != type_rg_point)
+ return 0;
attr->type = attr_label;
if (mr->str)
g_free(mr->str);
attr->u.str = mr->str;
mr->attr_next=attr_none;
return 1;
+ case attr_street_item:
+ if (mr->item.type != type_rg_segment)
+ return 0;
+ mr->attr_next=attr_none;
+ if (seg && seg->data.item.map)
+ attr->u.item=&seg->data.item;
+ else
+ return 0;
+ return 1;
+ case attr_flags:
+ if (mr->item.type != type_rg_segment)
+ return 0;
+ mr->attr_next = attr_none;
+ if (seg) {
+ attr->u.num = seg->data.flags;
+ } else {
+ return 0;
+ }
+ return 1;
+ case attr_direction:
+ // This only works if the map has been opened at a single point, and in that case indicates if the
+ // segment returned last is connected to this point via its start (1) or its end (-1)
+ if (!mr->coord_sel || (mr->item.type != type_rg_segment))
+ return 0;
+ if (seg->start == mr->point) {
+ attr->u.num=1;
+ } else if (seg->end == mr->point) {
+ attr->u.num=-1;
+ } else {
+ return 0;
+ }
+ return 1;
case attr_debug:
+ if (mr->item.type != type_rg_point)
+ return 0;
attr->type = attr_debug;
if (mr->str)
g_free(mr->str);
mr->attr_next=attr_none;
return 1;
default:
+ mr->attr_next=attr_none;
+ attr->type=attr_none;
return 0;
}
}
+/**
+ * @brief Returns the coordinates of a route graph item
+ *
+ * @param priv_data The route graph item's private data
+ * @param c Pointer where to store the coordinates
+ * @param count How many coordinates to get at a max?
+ * @return The number of coordinates retrieved
+ */
static int
rp_coord_get(void *priv_data, struct coord *c, int count)
{
struct route_graph_point *p = mr->point;
struct route_graph_segment *seg = mr->rseg;
int rc = 0,i,dir;
+ struct route *r = mr->mpriv->route;
+ enum projection pro = route_projection(r);
+
+ if (pro == projection_none)
+ return 0;
for (i=0; i < count; i++) {
if (mr->item.type == type_rg_point) {
if (mr->last_coord >= 1)
break;
- c[i] = p->c;
+ if (pro != projection_mg)
+ transform_from_to(&p->c, pro,
+ &c[i],projection_mg);
+ else
+ c[i] = p->c;
} else {
if (mr->last_coord >= 2)
break;
dir=1;
if (mr->last_coord)
dir=1-dir;
- if (dir)
- c[i] = seg->end->c;
- else
- c[i] = seg->start->c;
+ if (dir) {
+ if (pro != projection_mg)
+ transform_from_to(&seg->end->c, pro,
+ &c[i],projection_mg);
+ else
+ c[i] = seg->end->c;
+ } else {
+ if (pro != projection_mg)
+ transform_from_to(&seg->start->c, pro,
+ &c[i],projection_mg);
+ else
+ c[i] = seg->start->c;
+ }
}
mr->last_coord++;
rc++;
};
static void
+rp_destroy(struct map_priv *priv)
+{
+ g_free(priv);
+}
+
+static void
rm_destroy(struct map_priv *priv)
{
g_free(priv);
return NULL;
if (! route_get_dst(priv->route))
return NULL;
+#if 0
if (! priv->route->path2)
return NULL;
+#endif
mr=g_new0(struct map_rect_priv, 1);
mr->mpriv = priv;
mr->item.priv_data = mr;
- mr->item.type = type_street_route;
+ mr->item.type = type_none;
mr->item.meth = &methods_route_item;
- mr->seg_next=priv->route->path2->path;
+ if (priv->route->path2) {
+ mr->path=priv->route->path2;
+ mr->seg_next=mr->path->path;
+ mr->path->in_use++;
+ } else
+ mr->seg_next=NULL;
return mr;
}
+/**
+ * @brief Opens a new map rectangle on the route graph's map
+ *
+ * This function opens a new map rectangle on the route graph's map.
+ * The "sel" parameter enables you to only search for a single route graph
+ * point on this map (or exactly: open a map rectangle that only contains
+ * this one point). To do this, pass here a single map selection, whose
+ * c_rect has both coordinates set to the same point. Otherwise this parameter
+ * has no effect.
+ *
+ * @param priv The route graph map's private data
+ * @param sel Here it's possible to specify a point for which to search. Please read the function's description.
+ * @return A new map rect's private data
+ */
static struct map_rect_priv *
rp_rect_new(struct map_priv *priv, struct map_selection *sel)
{
struct map_rect_priv * mr;
+
dbg(1,"enter\n");
if (! priv->route->graph || ! priv->route->graph->route_points)
return NULL;
mr->item.priv_data = mr;
mr->item.type = type_rg_point;
mr->item.meth = &methods_point_item;
+ if (sel) {
+ if ((sel->u.c_rect.lu.x == sel->u.c_rect.rl.x) && (sel->u.c_rect.lu.y == sel->u.c_rect.rl.y)) {
+ mr->coord_sel = g_malloc(sizeof(struct coord));
+ *(mr->coord_sel) = sel->u.c_rect.lu;
+ }
+ }
return mr;
}
{
if (mr->str)
g_free(mr->str);
+ if (mr->coord_sel) {
+ g_free(mr->coord_sel);
+ }
+ if (mr->path) {
+ mr->path->in_use--;
+ if (mr->path->update_required && !mr->path->in_use)
+ route_path_update_done(mr->mpriv->route, mr->path->update_required-1);
+ }
+
g_free(mr);
}
struct route_graph_segment *seg = mr->rseg;
if (mr->item.type == type_rg_point) {
- if (!p)
- p = r->graph->route_points;
- else
- p = p->next;
+ if (mr->coord_sel) {
+ // We are supposed to return only the point at one specified coordinate...
+ if (!p) {
+ p = r->graph->hash[HASHCOORD(mr->coord_sel)];
+ while ((p) && ((p->c.x != mr->coord_sel->x) || (p->c.y != mr->coord_sel->y))) {
+ p = p->hash_next;
+ }
+ if ((!p) || !((p->c.x == mr->coord_sel->x) && (p->c.y == mr->coord_sel->y))) {
+ mr->point = NULL; // This indicates that no point has been found
+ } else {
+ mr->it = rp_iterator_new(p);
+ }
+ } else {
+ p = NULL;
+ }
+ } else {
+ if (!p)
+ p = r->graph->route_points;
+ else
+ p = p->next;
+ }
if (p) {
mr->point = p;
mr->item.id_lo++;
} else
mr->item.type = type_rg_segment;
}
- if (!seg)
- seg=r->graph->route_segments;
- else
- seg=seg->next;
+
+ if (mr->coord_sel) {
+ if (!mr->point) { // This means that no point has been found
+ return NULL;
+ }
+ seg = rp_iterator_next(&(mr->it));
+ } else {
+ if (!seg)
+ seg=r->graph->route_segments;
+ else
+ seg=seg->next;
+ }
+
if (seg) {
mr->rseg = seg;
mr->item.id_lo++;
static struct item *
rm_get_item(struct map_rect_priv *mr)
{
- struct route *r = mr->mpriv->route;
- struct route_path_segment *seg = mr->seg;
dbg(1,"enter\n", mr->pos);
- mr->seg=mr->seg_next;
- if (! mr->seg)
+ switch (mr->item.type) {
+ case type_none:
+ mr->item.type=type_route_start;
+ if (mr->mpriv->route->pos)
+ break;
+ default:
+ mr->item.type=type_street_route;
+ mr->seg=mr->seg_next;
+ if (mr->seg) {
+ mr->seg_next=mr->seg->next;
+ break;
+ }
+ mr->item.type=type_route_end;
+ if (mr->mpriv->route->dst)
+ break;
+ case type_route_end:
return NULL;
- mr->seg_next=mr->seg->next;
+ }
mr->last_coord = 0;
mr->item.id_lo++;
rm_attr_rewind(mr);
static struct map_methods route_meth = {
projection_mg,
- NULL,
+ "utf-8",
rm_destroy,
rm_rect_new,
rm_rect_destroy,
static struct map_methods route_graph_meth = {
projection_mg,
- NULL,
- rm_destroy,
+ "utf-8",
+ rp_destroy,
rp_rect_new,
rm_rect_destroy,
rp_get_item,
route_get_map_helper(struct route *this_, struct map **map, char *type, char *description)
{
if (! *map)
- *map=map_new((struct attr*[]){
+ *map=map_new(NULL, (struct attr*[]){
&(struct attr){attr_type,{type}},
&(struct attr){attr_route,.u.route=this_},
&(struct attr){attr_data,{""}},
&(struct attr){attr_description,{description}},
NULL});
+
return *map;
}
+/**
+ * @brief Returns a new map containing the route path
+ *
+ * This function returns a new map containing the route path.
+ *
+ * @important Do not map_destroy() this!
+ *
+ * @param this_ The route to get the map of
+ * @return A new map containing the route path
+ */
struct map *
route_get_map(struct route *this_)
{
}
+/**
+ * @brief Returns a new map containing the route graph
+ *
+ * This function returns a new map containing the route graph.
+ *
+ * @important Do not map_destroy() this!
+ *
+ * @param this_ The route to get the map of
+ * @return A new map containing the route graph
+ */
struct map *
route_get_graph_map(struct route *this_)
{
}
void
+route_add_callback(struct route *this_, struct callback *cb)
+{
+ callback_list_add(this_->cbl, cb);
+}
+
+void
+route_remove_callback(struct route *this_, struct callback *cb)
+{
+ callback_list_remove(this_->cbl, cb);
+}
+
+int
+route_get_attr(struct route *this_, enum attr_type type, struct attr *attr, struct attr_iter *iter)
+{
+ switch (type) {
+ case attr_map:
+ attr->u.map=route_get_map(this_);
+ return attr->u.map != NULL;
+ default:
+ return 0;
+ }
+}
+void
route_init(void)
{
plugin_register_map_type("route", route_map_new);
plugin_register_map_type("route_graph", route_graph_map_new);
}
+