postgresql 计算两点距离的2种方法小结

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postgresql计算两点距离

下面两种方法：

select
ST_Distance(
 ST_SetSRID(ST_MakePoint(115.97166453999147,28.716493914230423),4326)::geography,
 ST_SetSRID(ST_MakePoint(106.00231199774656,29.719258550486572),4326)::geography
),
ST_Length(
 ST_MakeLine(
 ST_MakePoint(115.97166453999147,28.716493914230423),
 ST_MakePoint(106.00231199774656,29.719258550486572)
 )::geography
)

备注：

ST_GeomFromText('LINESTRING(115.97166453999147 28.716493914230423,106.00231199774656 29.719258550486572)')与
ST_MakeLine(
 ST_MakePoint(115.97166453999147,28.716493914230423),
 ST_MakePoint(106.00231199774656,29.719258550486572)
)等价
 
ST_GeomFromText('POINT(115.97166453999147 28.716493914230423)',4326)与
ST_SetSRID(ST_MakePoint(115.97166453999147,28.716493914230423),4326)等价
 
ST_SetSRID(ST_MakePoint(115.97166453999147,28.716493914230423),4326)::geography与
Geography(ST_SetSRID(ST_MakePoint(115.97166453999147,28.716493914230423),4326))、
ST_GeographyFromText('SRID=4326;POINT(115.97166453999147 28.716493914230423)')等价
(::geography是postgis中的转换类型语法,把geometry转成geography)

补充：postgresql计算两点欧式距离（经纬度地理位置）

我就废话不多说了，大家还是直接看代码吧~

create or replace function getdistance
(
 lon1 numeric,
 lat1 numeric,
 lon2 numeric,
 lat2 numeric
)
returns int
as
$body$
declare
v_distance numeric;
v_earth_radius numeric;
radLat1 numeric;
radLat2 numeric;
v_radlatdiff numeric;
v_radlngdiff numeric;
begin
 --地球半径
 v_earth_radius:=6378137;
 
 radLat1 := lat1 * pi()/180.0;
 radLat2 := lat2 * pi()/180.0;
 v_radlatdiff := radLat1 - radLat2;
 v_radlngdiff := lon1 * pi()/180.0 - lon2 * pi()/180.0;
 v_distance := 2 * asin(sqrt(power(sin(v_radlatdiff / 2), 2) + cos(radLat1) * cos(radLat2) * power(sin(v_radlngdiff/2),2)));
 v_distance := round(v_distance * v_earth_radius);
 return v_distance;
end;
$body$
language 'plpgsql' volatile;

create or replace function getdistance
(
 i_lngbegin real,
 i_latbegin real,
 i_lngend real,
 i_latend real
)
returns float
as
$body$

declare
v_distance real;
v_earth_radius real;
v_radlatbegin real;
v_radlatend real;
v_radlatdiff real;
v_radlngdiff real;
begin
 --地球半径
 v_earth_radius:=6378.137;
 
 v_radlatbegin := i_latbegin * pi()/180.0;
 v_radlatend := i_latend * pi()/180.0;
 v_radlatdiff := v_radlatbegin - v_radlatend;
 v_radlngdiff := i_lngbegin * pi()/180.0 - i_lngend * pi()/180.0;
 v_distance := 2 * asin(sqrt(power(sin(v_radlatdiff / 2), 2) + cos(v_radlatbegin) * cos(v_radlatend) * power(sin(v_radlngdiff/2),2)));
 v_distance := v_distance * v_earth_radius*1000;
 return v_distance;
end;
$body$
language 'plpgsql' volatile;

v_distance; end;$body$ language 'plpgsql' volatile;

文章来源：脚本之家

来源地址：https://www.jb51.net/article/204788.htm