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/*!
\file lib/vector/Vlib/select.c
\brief Vector library - spatial index
Higher level functions for a custom spatial index.
(C) 2001-2009 by the GRASS Development Team
This program is free software under the GNU General Public License
(>=v2). Read the file COPYING that comes with GRASS for details.
\author Radim Blazek
*/
#include <stdlib.h>
#include <unistd.h>
#include <sys/stat.h>
#include <string.h>
#include <grass/vector.h>
#include <grass/glocale.h>
/*!
\brief Initialize spatial index structure
\param si pointer to spatial index structure
\return void
*/
void Vect_spatial_index_init(struct spatial_index * si, int with_z)
{
G_debug(1, "Vect_spatial_index_init()");
si->si_tree = RTreeCreateTree(-1, 0, 2 + (with_z != 0));
}
/*!
\brief Destroy existing spatial index
Vect_spatial_index_init() must be call before new use.
\param si pointer to spatial index structure
\return void
*/
void Vect_spatial_index_destroy(struct spatial_index * si)
{
G_debug(1, "Vect_spatial_index_destroy()");
RTreeDestroyTree(si->si_tree);
}
/*!
\brief Add a new item to spatial index structure
\param[in,out] si pointer to spatial index structure
\param id item identifier
\param box pointer to item bounding box
\return void
*/
void Vect_spatial_index_add_item(struct spatial_index * si, int id,
const struct bound_box * box)
{
static struct RTree_Rect rect;
static int rect_init = 0;
if (!rect_init) {
rect.boundary = G_malloc(si->si_tree->nsides_alloc * sizeof(RectReal));
rect_init = si->si_tree->nsides_alloc;
}
G_debug(3, "Vect_spatial_index_add_item(): id = %d", id);
rect.boundary[0] = box->W;
rect.boundary[1] = box->S;
rect.boundary[2] = box->B;
rect.boundary[3] = box->E;
rect.boundary[4] = box->N;
rect.boundary[5] = box->T;
RTreeInsertRect(&rect, id, si->si_tree);
}
/*!
\brief Delete item from spatial index structure
\param[in,out] si pointer to spatial index structure
\param id item identifier
\return void
*/
void Vect_spatial_index_del_item(struct spatial_index * si, int id,
const struct bound_box * box)
{
int ret;
static struct RTree_Rect rect;
static int rect_init = 0;
if (!rect_init) {
rect.boundary = G_malloc(si->si_tree->nsides_alloc * sizeof(RectReal));
rect_init = si->si_tree->nsides_alloc;
}
G_debug(3, "Vect_spatial_index_del_item(): id = %d", id);
rect.boundary[0] = box->W;
rect.boundary[1] = box->S;
rect.boundary[2] = box->B;
rect.boundary[3] = box->E;
rect.boundary[4] = box->N;
rect.boundary[5] = box->T;
ret = RTreeDeleteRect(&rect, id, si->si_tree);
if (ret)
G_fatal_error(_("Unable to delete item %d from spatial index"), id);
}
/************************* SELECT BY BOX *********************************/
/* This function is called by RTreeSearch() to add selected item to the list */
static int _add_item(int id, const struct RTree_Rect *rect, struct ilist *list)
{
G_ilist_add(list, id);
return 1;
}
/*!
\brief Select items by bounding box to list
\param si pointer to spatial index structure
\param box bounding box
\param[out] list pointer to list where selected items are stored
\return number of selected items
*/
int Vect_spatial_index_select(const struct spatial_index * si, const struct bound_box * box,
struct ilist *list)
{
static struct RTree_Rect rect;
static int rect_init = 0;
if (!rect_init) {
rect.boundary = G_malloc(si->si_tree->nsides_alloc * sizeof(RectReal));
rect_init = si->si_tree->nsides_alloc;
}
Vect_reset_list(list);
rect.boundary[0] = box->W;
rect.boundary[1] = box->S;
rect.boundary[2] = box->B;
rect.boundary[3] = box->E;
rect.boundary[4] = box->N;
rect.boundary[5] = box->T;
RTreeSearch(si->si_tree, &rect, (void *)_add_item, list);
G_debug(3, "Vect_spatial_index_select(): %d items selected", list->n_values);
return list->n_values;
}
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