Définition
ST_Intersects retourne 1 (Oracle et SQLite) ou t (PostgreSQL) si l'intersection de deux géométries n'est pas un ensemble vide ; dans le cas contraire, la fonction retourne 0 (Oracle et SQLite) ou f (PostgreSQL).
Syntaxe
Oracle et PostgreSQL
sde.st_intersects (geometry1 sde.st_geometry, geometry2 sde.st_geometry)
SQLite
st_intersects (geometry1 geometryblob, geometry2 geometryblob)
Type de retour
Booléen
Exemple
Le capitaine des pompiers demande une liste des zones sensibles situées dans un rayon donné d'un site de dépôt de déchets dangereux.
Les zones sensibles sont stockées dans la table sensitive_areas. La colonne shape, définie avec le type polygone, stocke les contours respectifs des zones sensibles.
Les sites dangereux sont stockés dans la table hazardous_sites. La colonne site, définie avec le type point, stocke un emplacement qui est le centre géographique de chaque site à risque.
La requête SELECT crée un rayon de zone tampon autour de chaque site dangereux et renvoie une liste de zones sensibles qui intersectent les zones tampon des sites dangereux.
Oracle
--Create and populate tables.
CREATE TABLE sensitive_areas (
id integer,
shape sde.st_geometry
);
CREATE TABLE hazardous_sites (
id integer,
site sde.st_geometry
);
INSERT INTO sensitive_areas VALUES (
1,
sde.st_geometry ('polygon ((20 30, 30 30, 30 40, 20 40, 20 30))', 4326)
);
INSERT INTO sensitive_areas VALUES (
2,
sde.st_geometry ('polygon ((30 30, 30 50, 50 50, 50 30, 30 30))', 4326)
);
INSERT INTO sensitive_areas VALUES (
3,
sde.st_geometry ('polygon ((40 40, 40 60, 60 60, 60 40, 40 40))', 4326)
);
INSERT INTO hazardous_sites VALUES (
4,
sde.st_geometry ('point (60 60)', 4326)
);
INSERT INTO hazardous_sites VALUES (
5,
sde.st_geometry ('point (30 30)', 4326)
);
--Create a buffer around the hazardous sites, then find the hazardous site buffers that intersect sensitive areas.
SELECT sa.id SA_ID, hs.id HS_ID
FROM SENSITIVE_AREAS sa, HAZARDOUS_SITES hs
WHERE sde.st_intersects (sde.st_buffer (hs.site, .1), sa.shape) = 1
ORDER BY sa.id;
SA_ID HS_ID
1 5
2 5
3 4
PostgreSQL
--Create and populate tables.
CREATE TABLE sensitive_areas (
id serial,
shape sde.st_geometry
);
CREATE TABLE hazardous_sites (
id serial,
site sde.st_geometry
);
INSERT INTO sensitive_areas (shape) VALUES (
sde.st_geometry ('polygon ((20 30, 30 30, 30 40, 20 40, 20 30))', 4326)
);
INSERT INTO sensitive_areas (shape) VALUES (
sde.st_geometry ('polygon ((30 30, 30 50, 50 50, 50 30, 30 30))', 4326)
);
INSERT INTO sensitive_areas (shape) VALUES (
sde.st_geometry ('polygon ((40 40, 40 60, 60 60, 60 40, 40 40))', 4326)
);
INSERT INTO hazardous_sites (site) VALUES (
sde.st_geometry ('point (60 60)', 4326)
);
INSERT INTO hazardous_sites (site) VALUES (
sde.st_geometry ('point (30 30)', 4326)
);
--Create a buffer around the hazardous sites, then find the hazardous site buffers that intersect sensitive areas.
SELECT sa.id AS sid, hs.id AS hid
FROM sensitive_areas sa, hazardous_sites hs
WHERE sde.st_intersects (sde.st_buffer (hs.site, .1), sa.shape) = 't'
ORDER BY sa.id;
sid hid
1 2
2 2
3 1
SQLite
--Create and populate tables.
CREATE TABLE sensitive_areas (
id integer primary key autoincrement not null
);
SELECT AddGeometryColumn (
NULL,
'sensitive_areas',
'shape',
4326,
'polygon',
'xy',
'null'
);
CREATE TABLE hazardous_sites (
id integer primary key autoincrement not null
);
SELECT AddGeometryColumn (
NULL,
'hazardous_sites',
'site',
4326,
'point',
'xy',
'null'
);
INSERT INTO sensitive_areas (shape) VALUES (
st_geometry ('polygon ((20 30, 30 30, 30 40, 20 40, 20 30))', 4326)
);
INSERT INTO sensitive_areas (shape) VALUES (
st_geometry ('polygon ((30 30, 30 50, 50 50, 50 30, 30 30))', 4326)
);
INSERT INTO sensitive_areas (shape) VALUES (
st_geometry ('polygon ((40 40, 40 60, 60 60, 60 40, 40 40))', 4326)
);
INSERT INTO hazardous_sites (site) VALUES (
st_geometry ('point (60 60)', 4326)
);
INSERT INTO hazardous_sites (site) VALUES (
st_geometry ('point (30 30)', 4326)
);
--Create a buffer around the hazardous sites, then find the hazardous site buffers that intersect sensitive areas.
SELECT sa.id AS "sid", hs.id AS "hid"
FROM sensitive_areas sa, hazardous_sites hs
WHERE st_intersects (st_buffer (hs.site, .1), sa.shape) = 1
ORDER BY sa.id;
sid hid
1 2
2 2
3 1