ST_Contains

定义

ST_Contains 获取两个几何对象,如果第一个对象完全包含第二个对象,则返回 1(Oracle 和 SQLite)或 t (PostgreSQL);否则返回 0(Oracle 和 SQLite)或 f (PostgreSQL)。

语法

Oracle 和 PostgreSQL

sde.st_contains (geometry1 sde.st_geometry, geometry2 sde.st_geometry)

SQLite

st_contains (geometry1 geometryblob, geometry2 geometryblob)

返回类型

布尔型

示例

在下面的示例中,创建了两个表。一个是包含城市建筑物覆盖区的 bfp;另一个是包含宗地的 lots。城市工程师想要确保所有建筑物覆盖区都完全位于其宗地内。

城市工程师使用 ST_Intersects 和 ST_Contains 来选择并非完全包含在一个地块中的建筑物。

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

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5/25/2014