定義
ST_Contains は、2 つのジオメトリ オブジェクトを入力として、最初のオブジェクトが 2 番目のオブジェクトを完全に含む場合は 1 (Oracle および SQLite) または t (PostgreSQL)、それ以外の場合は 0 (Oracle および SQLite) または f (PostgreSQL) を返します。
構文
Oracle および PostgreSQL
sde.st_contains (geometry1 sde.st_geometry, geometry2 sde.st_geometry)
SQLite
st_contains (geometry1 geometryblob, geometry2 geometryblob)
戻り値のタイプ
Boolean
例
以下の例では、2 つのテーブルが作成されます。buildingfootprints には都市の建物、lots にはその区画が含まれます。都市エンジニアは、すべての建物がその土地区画内にあることを確認したいと考えています。
都市エンジニアは、ST_Intersects および ST_Contains を使用して、1 つの区画に完全には収まっていない建物を選択します。
Oracle
--Create tables and insert values.
CREATE TABLE bfp (
building_id integer,
footprint sde.st_geometry
);
CREATE TABLE lots (
lot_id integer,
lot sde.st_geometry
);
INSERT INTO BFP (building_id, footprint) VALUES (
1,
sde.st_polygon ('polygon ((0 0, 0 10, 10 10, 10 0, 0 0))', 4326)
);
INSERT INTO BFP (building_id, footprint) VALUES (
2,
sde.st_polygon ('polygon ((20 0, 20 10, 30 10, 30 0, 20 0))', 4326)
);
INSERT INTO BFP (building_id, footprint) VALUES (
3,
sde.st_polygon ('polygon ((40 0, 40 10, 50 10, 50 0, 40 0))', 4326)
);
INSERT INTO LOTS (lot_id, lot) VALUES (
1,
sde.st_polygon ('polygon ((-1 -1, -1 11, 11 11, 11 -1, -1 -1))', 4326)
);
INSERT INTO LOTS (lot_id, lot) VALUES (
2,
sde.st_polygon ('polygon ((19 -1, 19 11, 29 9, 31 -1, 19 -1))', 4326)
);
INSERT INTO LOTS (lot_id, lot) VALUES (
3,
sde.st_polygon ('polygon ((39 -1, 39 11, 51 11, 51 -1, 39 -1))', 4326)
);
--Select the buildings that are not completely contained within one lot.
SELECT UNIQUE (building_id)
FROM BFP, LOTS
WHERE sde.st_intersects (lot, footprint) = 1
AND sde.st_contains (lot, footprint) = 0;
BUILDING_ID
2
PostgreSQL
--Create tables and insert values.
CREATE TABLE bfp (
building_id serial,
footprint st_geometry);
CREATE TABLE lots
(lot_id serial,
lot st_geometry);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((0 0, 0 10, 10 10, 10 0, 0 0))', 4326)
);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((20 0, 20 10, 30 10, 30 0, 20 0))', 4326)
);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((40 0, 40 10, 50 10, 50 0, 40 0))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((-1 -1, -1 11, 11 11, 11 -1, -1 -1))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((19 -1, 19 11, 29 9, 31 -1, 19 -1))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((39 -1, 39 11, 51 11, 51 -1, 39 -1))', 4326)
);
--Select the buildings that are not completely contained within one lot.
SELECT DISTINCT (building_id)
FROM bfp, lots
WHERE st_intersects (lot, footprint) = 't'
AND st_contains (lot, footprint) = 'f';
building_id
2
SQLite
--Create tables, add geometry columns, and insert values.
CREATE TABLE bfp (
building_id integer primary key autoincrement not null
);
SELECT AddGeometryColumn (
NULL,
'bfp',
'footprint',
4326,
'polygon',
'xy',
'null'
);
CREATE TABLE lots
(lot_id integer primary key autoincrement not null
);
SELECT AddGeometryColumn (
NULL,
'lots',
'lot',
4326,
'polygon',
'xy',
'null'
);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((0 0, 0 10, 10 10, 10 0, 0 0))', 4326)
);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((20 0, 20 10, 30 10, 30 0, 20 0))', 4326)
);
INSERT INTO bfp (footprint) VALUES (
st_polygon ('polygon ((40 0, 40 10, 50 10, 50 0, 40 0))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((-1 -1, -1 11, 11 11, 11 -1, -1 -1))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((19 -1, 19 11, 29 9, 31 -1, 19 -1))', 4326)
);
INSERT INTO lots (lot) VALUES (
st_polygon ('polygon ((39 -1, 39 11, 51 11, 51 -1, 39 -1))', 4326)
);
--Select the buildings that are not completely contained within one lot.
SELECT DISTINCT (building_id)
FROM bfp, lots
WHERE st_intersects (lot, footprint) = 1
AND st_contains (lot, footprint) = 0;
building_id
2