*
* PostGIS - Spatial Types for PostgreSQL
* http://postgis.net
*
* PostGIS is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* PostGIS 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 PostGIS. If not, see <http://www.gnu.org/licenses/>.
*
**********************************************************************
*
* Copyright 2010 Nicklas Avén
*
**********************************************************************/
*
* PostGIS - Spatial Types for PostgreSQL
* http://postgis.net
* Copyright 2010 Nicklas Avén
*
* This is free software; you can redistribute and/or modify it under
* the terms of the GNU General Public Licence. See the COPYING file.
*
**********************************************************************/
#ifndef _MEASURES_H
#define _MEASURES_H 1
#include "liblwgeom_internal.h"
#define DIST_MAX -1
#define DIST_MIN 1
* Structure used in distance-calculations
*/
typedef struct
{
double distance;
POINT2D p1;
POINT2D p2;
int mode;
int twisted;
double tolerance;
} DISTPTS;
typedef struct
{
double themeasure;
int pnr;
} LISTSTRUCT;
* Preprocessing functions
*/
int lw_dist2d_comp(const LWGEOM *lw1, const LWGEOM *lw2, DISTPTS *dl);
int lw_dist2d_distribute_bruteforce(const LWGEOM *lwg1, const LWGEOM *lwg2, DISTPTS *dl);
int lw_dist2d_recursive(const LWGEOM *lwg1, const LWGEOM *lwg2, DISTPTS *dl);
int lw_dist2d_check_overlap(LWGEOM *lwg1, LWGEOM *lwg2);
int lw_dist2d_distribute_fast(LWGEOM *lwg1, LWGEOM *lwg2, DISTPTS *dl);
* Brute force functions
*/
int lw_dist2d_pt_ptarray(const POINT2D *p, POINTARRAY *pa, DISTPTS *dl);
int lw_dist2d_pt_ptarrayarc(const POINT2D *p, const POINTARRAY *pa, DISTPTS *dl);
int lw_dist2d_ptarray_ptarray(POINTARRAY *l1, POINTARRAY *l2, DISTPTS *dl);
int lw_dist2d_ptarray_ptarrayarc(const POINTARRAY *pa, const POINTARRAY *pb, DISTPTS *dl);
int lw_dist2d_ptarrayarc_ptarrayarc(const POINTARRAY *pa, const POINTARRAY *pb, DISTPTS *dl);
int lw_dist2d_ptarray_poly(POINTARRAY *pa, LWPOLY *poly, DISTPTS *dl);
int lw_dist2d_point_point(LWPOINT *point1, LWPOINT *point2, DISTPTS *dl);
int lw_dist2d_point_line(LWPOINT *point, LWLINE *line, DISTPTS *dl);
int lw_dist2d_point_tri(LWPOINT *point, LWTRIANGLE *tri, DISTPTS *dl);
int lw_dist2d_point_circstring(LWPOINT *point, LWCIRCSTRING *circ, DISTPTS *dl);
int lw_dist2d_point_poly(LWPOINT *point, LWPOLY *poly, DISTPTS *dl);
int lw_dist2d_point_curvepoly(LWPOINT *point, LWCURVEPOLY *poly, DISTPTS *dl);
int lw_dist2d_line_line(LWLINE *line1, LWLINE *line2, DISTPTS *dl);
int lw_dist2d_line_tri(LWLINE *line, LWTRIANGLE *tri, DISTPTS *dl);
int lw_dist2d_line_circstring(LWLINE *line1, LWCIRCSTRING *line2, DISTPTS *dl);
int lw_dist2d_line_poly(LWLINE *line, LWPOLY *poly, DISTPTS *dl);
int lw_dist2d_line_curvepoly(LWLINE *line, LWCURVEPOLY *poly, DISTPTS *dl);
int lw_dist2d_tri_tri(LWTRIANGLE *tri1, LWTRIANGLE *tri2, DISTPTS *dl);
int lw_dist2d_tri_circstring(LWTRIANGLE *tri, LWCIRCSTRING *line, DISTPTS *dl);
int lw_dist2d_tri_poly(LWTRIANGLE *tri, LWPOLY *poly, DISTPTS *dl);
int lw_dist2d_tri_curvepoly(LWTRIANGLE *tri, LWCURVEPOLY *poly, DISTPTS *dl);
int lw_dist2d_circstring_circstring(LWCIRCSTRING *line1, LWCIRCSTRING *line2, DISTPTS *dl);
int lw_dist2d_circstring_poly(LWCIRCSTRING *circ, LWPOLY *poly, DISTPTS *dl);
int lw_dist2d_circstring_curvepoly(LWCIRCSTRING *circ, LWCURVEPOLY *poly, DISTPTS *dl);
int lw_dist2d_poly_poly(LWPOLY *poly1, LWPOLY *poly2, DISTPTS *dl);
int lw_dist2d_poly_curvepoly(LWPOLY *poly1, LWCURVEPOLY *curvepoly2, DISTPTS *dl);
int lw_dist2d_curvepoly_curvepoly(LWCURVEPOLY *poly1, LWCURVEPOLY *poly2, DISTPTS *dl);
* New faster distance calculations
*/
int lw_dist2d_pre_seg_seg(POINTARRAY *l1, POINTARRAY *l2,LISTSTRUCT *list1, LISTSTRUCT *list2,double k, DISTPTS *dl);
int lw_dist2d_selected_seg_seg(const POINT2D *A, const POINT2D *B, const POINT2D *C, const POINT2D *D, DISTPTS *dl);
int struct_cmp_by_measure(const void *a, const void *b);
int lw_dist2d_fast_ptarray_ptarray(POINTARRAY *l1,POINTARRAY *l2, DISTPTS *dl, GBOX *box1, GBOX *box2);
* Distance calculation primitives.
*/
int lw_dist2d_pt_pt (const POINT2D *P, const POINT2D *Q, DISTPTS *dl);
int lw_dist2d_pt_seg (const POINT2D *P, const POINT2D *A1, const POINT2D *A2, DISTPTS *dl);
int lw_dist2d_pt_arc (const POINT2D *P, const POINT2D *A1, const POINT2D *A2, const POINT2D *A3, DISTPTS *dl);
int lw_dist2d_seg_seg(const POINT2D *A1, const POINT2D *A2, const POINT2D *B1, const POINT2D *B2, DISTPTS *dl);
int lw_dist2d_seg_arc(const POINT2D *A1, const POINT2D *A2, const POINT2D *B1, const POINT2D *B2, const POINT2D *B3, DISTPTS *dl);
int lw_dist2d_arc_arc(const POINT2D *A1, const POINT2D *A2, const POINT2D *A3, const POINT2D *B1, const POINT2D *B2, const POINT2D* B3, DISTPTS *dl);
void lw_dist2d_distpts_init(DISTPTS *dl, int mode);
* Length primitives
*/
double lw_arc_length(const POINT2D *A1, const POINT2D *A2, const POINT2D *A3);
* Geometry returning functions
*/
LWGEOM *lw_dist2d_distancepoint(const LWGEOM *lw1, const LWGEOM *lw2, int32_t srid, int mode);
LWGEOM *lw_dist2d_distanceline(const LWGEOM *lw1, const LWGEOM *lw2, int32_t srid, int mode);
#endif