WGS84与bd-09,gcj-02坐标系,百度经纬度与百度墨卡托之间互转
FreeGIS_Coordinate_Transform(
in schema_name text,
in table_name text,
in transform_type FreeGIS_coordinate_transform_type
)
select FreeGIS_Coordinate_Transform(‘public’,‘test’,‘WGS2GCJ’);
构造函数:
– 百度坐标系 (BD-09) 与 火星坐标系 (GCJ-02)的转换
– 即 百度 转 谷歌、高德
CREATE OR REPLACE FUNCTION FreeGIS_BD2GCJ(
in bd_point geometry(Point,4326),
out gcj_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
x double precision;
y double precision;
z double precision;
theta double precision;
x_pi double precision:=3.14159265358979324 * 3000.0 / 180.0;
BEGIN
x:= ST_X(bd_point) - 0.0065;
y:= ST_Y(bd_point) - 0.006;
z:=sqrt(power(x,2) + power(y,2)) - 0.00002 *sin(y * x_pi);
theta:= atan2(y, x) - 0.000003 * cos(x * x_pi);
gcj_point:=ST_SetSRID(ST_MakePoint(z *cos(theta),z *sin(theta)),4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–火星坐标系 (GCJ-02) 与百度坐标系 (BD-09) 的转换
–即谷歌、高德 转 百度
CREATE OR REPLACE FUNCTION FreeGIS_GCJ2BD(
in gcj_point geometry(Point,4326),
out bd_point geometry(Point,4326)
) RETURNS geometry As
B O D Y BODY BODY
DECLARE
z double precision;
theta double precision;
x_pi double precision:=3.14159265358979324 * 3000.0 / 180.0;
gcj_lon double precision;
gcj_lat double precision;
BEGIN
gcj_lon:=ST_X(gcj_point);
gcj_lat:=ST_Y(gcj_point);
z:= sqrt(power(gcj_lon,2) + power(gcj_lat,2)) + 0.00002 * sin(gcj_lat * x_pi);
theta:= atan2(gcj_lat, gcj_lon) + 0.000003 * cos(gcj_lon * x_pi);
bd_point:=ST_SetSRID(ST_MakePoint(z * cos(theta) + 0.0065,z * sin(theta) + 0.006),4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–84转火星
–即真实的gps坐标 转 谷歌,高德
CREATE OR REPLACE FUNCTION FreeGIS_WGS2GCJ(
in wgs_point geometry(Point,4326),
out gcj_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
a double precision:= 6378245.0;
ee double precision:= 0.00669342162296594323;
dLat double precision;
dLon double precision;
x double precision;
y double precision;
radLat double precision;
magic double precision;
SqrtMagic double precision;
wgs_lon double precision;
wgs_lat double precision;
BEGIN
wgs_lon:=ST_X(wgs_point);
wgs_lat:=ST_Y(wgs_point);
–坐标在国外
if(wgs_lon < 72.004 or wgs_lon > 137.8347 or wgs_lat < 0.8293 or wgs_lat > 55.8271) then
gcj_point:=wgs_point;
return;
end if;
–国内坐标
x:=wgs_lon - 105.0;
y:=wgs_lat - 35.0;
dLat:= -100.0 + 2.0 * x + 3.0 * y + 0.2 * power(y,2) + 0.1 * x * y + 0.2 * sqrt(abs(x))
+(20.0 * sin(6.0 * x * pi()) + 20.0 * sin(2.0 * x * pi())) * 2.0 / 3.0
+ (20.0 * sin(y * pi()) + 40.0 * sin(y / 3.0 * pi())) * 2.0 / 3.0
+ (160.0 * sin(y / 12.0 * pi()) + 320 * sin(y * pi() / 30.0)) * 2.0 / 3.0;
dLon:= 300.0 + x + 2.0 * y + 0.1 * power(x,2) + 0.1 * x * y + 0.1 * sqrt(abs(x))
+ (20.0 * sin(6.0 * x * pi()) + 20.0 * sin(2.0 * x * pi())) * 2.0 / 3.0
+ (20.0 * sin(x * pi()) + 40.0 * sin(x / 3.0 * pi())) * 2.0 / 3.0
+ (150.0 * sin(x / 12.0 * pi()) + 300.0 * sin(x / 30.0 * pi())) * 2.0 / 3.0;
radLat:=wgs_lat / 180.0 * pi();
magic:= sin(radLat);
magic:=1 - ee * magic * magic;
SqrtMagic:= sqrt(magic);
dLon:= (dLon * 180.0) / (a / SqrtMagic * cos(radLat) * pi());
dLat:= (dLat * 180.0) / ((a * (1 - ee)) / (magic * SqrtMagic) * pi());
gcj_point:=ST_SetSRID(ST_MakePoint(wgs_lon + dLon,wgs_lat + dLat),4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–火星转84
–即 谷歌,高德 转 真实gps坐标
CREATE OR REPLACE FUNCTION FreeGIS_GCJ2WGS(
in gcj_point geometry(Point,4326),
out wgs_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
_gcj_point geometry(Point,4326);
gcj_lon double precision;
gcj_lat double precision;
d_lon double precision;
d_lat double precision;
BEGIN
_gcj_point:=FreeGIS_WGS2GCJ(gcj_point);
gcj_lon:=ST_X(gcj_point);
gcj_lat:=ST_Y(gcj_point);
d_lon:= ST_X(_gcj_point)-gcj_lon;
d_lat:= ST_Y(_gcj_point)-gcj_lat;
wgs_point:=ST_SetSRID(ST_MakePoint(gcj_lon - d_lon,gcj_lat - d_lat),4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–百度转WGS
CREATE OR REPLACE FUNCTION FreeGIS_BD2WGS(
in bd_point geometry(Point,4326),
out wgs_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
_gcj_point geometry(Point,4326);
BEGIN
–百度先转火星
_gcj_point:=FreeGIS_BD2GCJ(bd_point);
–火星转84
wgs_point:=FreeGIS_GCJ2WGS(_gcj_point);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–WGS转百度
CREATE OR REPLACE FUNCTION FreeGIS_WGS2BD(
in wgs_point geometry(Point,4326),
out bd_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
_gcj_point geometry(Point,4326);
BEGIN
–84转火星
_gcj_point:=FreeGIS_WGS2GCJ(wgs_point);
–火星转百度
bd_point:=FreeGIS_GCJ2BD(_gcj_point);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–百度经纬转百度墨卡托
CREATE OR REPLACE FUNCTION FreeGIS_BDWGS2BDMKT(
in bd_point_4326 geometry(Point,4326),
out bd_point_3857 geometry(Point,3857)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
LL2MC double precision[]:=array[[-0.0015702102444, 111320.7020616939, 1704480524535203, -10338987376042340, 26112667856603880, -35149669176653700, 26595700718403920, -10725012454188240, 1800819912950474, 82.5], [0.0008277824516172526, 111320.7020463578, 647795574.6671607, -4082003173.641316, 10774905663.51142, -15171875531.51559, 12053065338.62167, -5124939663.577472, 913311935.9512032, 67.5], [0.00337398766765, 111320.7020202162, 4481351.045890365, -23393751.19931662, 79682215.47186455, -115964993.2797253, 97236711.15602145, -43661946.33752821, 8477230.501135234, 52.5], [0.00220636496208, 111320.7020209128, 51751.86112841131, 3796837.749470245, 992013.7397791013, -1221952.21711287, 1340652.697009075, -620943.6990984312, 144416.9293806241, 37.5], [-0.0003441963504368392, 111320.7020576856, 278.2353980772752, 2485758.690035394, 6070.750963243378, 54821.18345352118, 9540.606633304236, -2710.55326746645, 1405.483844121726, 22.5], [-0.0003218135878613132, 111320.7020701615, 0.00369383431289, 823725.6402795718, 0.46104986909093, 2351.343141331292, 1.58060784298199, 8.77738589078284, 0.37238884252424, 7.45]];
LLBAND integer[]:=array[75,60,45,30,15,0];
i integer;
cF double precision[];
cC double precision;
bd_wgslon double precision;
bd_wgslat double precision;
bd_mktlon double precision;
bd_mktlat double precision;
BEGIN
bd_wgslon:=ST_X(bd_point_4326);
bd_wgslat:=ST_Y(bd_point_4326);
while bd_wgslon > 180 loop
bd_wgslon:= bd_wgslon-360;
end loop;
while bd_wgslon<-180 loop
bd_wgslon:= bd_wgslon+360;
end loop;
if bd_wgslat<-74 then
bd_wgslat:=-74;
end if;
if bd_wgslat>74 then
bd_wgslat:=74;
end if;
for i in 1..array_length(LLBAND,1) loop
if bd_wgslat>=LLBAND[i] then
cF = LL2MC[i:i];
exit;
end if;
end loop;
IF array_length(cF,1) IS NULL THEN
for i in array_length(LLBAND,1)..1 loop
if bd_wgslat<=-LLBAND[i] then
cF = LL2MC[i:i];
exit;
end if;
end loop;
end if;
bd_mktlon:= cF[1][1] + cF[1][2] * abs(bd_wgslon);
cC:= abs(bd_wgslat) / cF[1][10];
bd_mktlat = cF[1][3] + cF[1][4] * cC + cF[1][5] * cC * cC + cF[1][6] * cC * cC * cC + cF[1][7] * cC * cC * cC * cC + cF[1][8] * cC * cC * cC * cC * cC + cF[1][9] * cC * cC * cC * cC * cC * cC;
if bd_mktlon<0 then
bd_mktlon:=-bd_mktlon;
end if;
if bd_mktlat<0 then
bd_mktlat:=-bd_mktlat;
end if;
bd_point_3857:=ST_SetSRID(ST_MakePoint(bd_mktlon,bd_mktlat),3857);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–百度墨卡托转百度经纬度
CREATE OR REPLACE FUNCTION FreeGIS_BDMKT2BDWGS(
in bd_point_3857 geometry(Point,3857),
out bd_point_4326 geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
MCBAND double precision[]:= array[12890594.86,8362377.87,5591021,3481989.83,1678043.12,0];
MC2LL double precision[]:= array [[1.410526172116255e-8, 0.00000898305509648872, -1.9939833816331, 200.9824383106796, -187.2403703815547, 91.6087516669843, -23.38765649603339, 2.57121317296198, -0.03801003308653, 17337981.2], [-7.435856389565537e-9, 0.000008983055097726239, -0.78625201886289, 96.32687599759846, -1.85204757529826, -59.36935905485877, 47.40033549296737, -16.50741931063887, 2.28786674699375, 10260144.86], [-3.030883460898826e-8, 0.00000898305509983578, 0.30071316287616, 59.74293618442277, 7.357984074871, -25.38371002664745, 13.45380521110908, -3.29883767235584, 0.32710905363475, 6856817.37], [-1.981981304930552e-8, 0.000008983055099779535, 0.03278182852591, 40.31678527705744, 0.65659298677277, -4.44255534477492, 0.85341911805263, 0.12923347998204, -0.04625736007561, 4482777.06], [3.09191371068437e-9, 0.000008983055096812155, 0.00006995724062, 23.10934304144901, -0.00023663490511, -0.6321817810242, -0.00663494467273, 0.03430082397953, -0.00466043876332, 2555164.4], [2.890871144776878e-9, 0.000008983055095805407, -3.068298e-8, 7.47137025468032, -0.00000353937994, -0.02145144861037, -0.00001234426596, 0.00010322952773, -0.00000323890364, 826088.5]];
i integer;
cF double precision[];
cC double precision;
bd_wgslon double precision;
bd_wgslat double precision;
BEGIN
bd_wgslon = abs(ST_X(bd_point_3857));
bd_wgslat = abs(ST_Y(bd_point_3857));
for i in 1…array_length(MCBAND,1) loop
if bd_wgslat>=MCBAND[i] then
cF = MC2LL[i:i];
exit;
end if;
end loop;
bd_wgslon = cF[1][1] + cF[1][2] * abs(bd_wgslon);
cC = abs(bd_wgslat) / cF[1][10];
bd_wgslat = cF[1][3] + cF[1][4] * cC + cF[1][5] * cC * cC + cF[1][6] * cC * cC * cC + cF[1][7] * cC * cC * cC * cC + cF[1][8] * cC * cC * cC * cC * cC + cF[1][9] * cC * cC * cC * cC * cC * cC;
if bd_wgslon<0 then
bd_wgslon:=-bd_wgslon;
end if;
if bd_wgslat<0 then
bd_wgslat:=-bd_wgslat;
end if;
bd_point_4326:=ST_SetSRID(ST_MakePoint(bd_wgslon,bd_wgslat),4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–WGS转百度墨卡托
CREATE OR REPLACE FUNCTION FreeGIS_WGS2BDMKT(
in wgs_point geometry(Point,4326),
out bd_point_3857 geometry(Point,3857)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
bd_point_4326 geometry(Point,4326);
BEGIN
–wgs转百度
bd_point_4326:=FreeGIS_WGS2BD(wgs_point);
bd_point_3857:=FreeGIS_BDWGS2BDMKT(bd_point_4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–百度墨卡托转WGS
CREATE OR REPLACE FUNCTION FreeGIS_BDMKT2WGS(
in bd_point_3857 geometry(Point,3857),
out wgs_point geometry(Point,4326)
) RETURNS geometry As B O D Y BODY BODY
DECLARE
bd_point_4326 geometry(Point,4326);
BEGIN
–百度墨卡托转百度经纬
bd_point_4326:=FreeGIS_BDMKT2BDWGS(bd_point_3857);
–百度经纬转 wgs经纬
wgs_point:=FreeGIS_BD2WGS(bd_point_4326);
return;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
drop TYPE if exists FreeGIS_coordinate_transform_type cascade;
CREATE TYPE FreeGIS_coordinate_transform_type AS ENUM (‘BD2GCJ’, ‘GCJ2BD’, ‘WGS2GCJ’,‘GCJ2WGS’,‘BD2WGS’,‘WGS2BD’,
‘BDWGS2BDMKT’,‘BDMKT2BDWGS’,‘WGS2BDMKT’,‘BDMKT2WGS’);
–对表批量进行坐标转换
CREATE OR REPLACE FUNCTION FreeGIS_Coordinate_Transform(
in schema_name text,–转换表的schema名称
in table_name text,–转换表名字
in transform_type FreeGIS_coordinate_transform_type–转换类型枚举型。
) RETURNS text As
B O D Y BODY BODY
DECLARE
server_version int;
begin
server_version:=current_setting(‘server_version_num’)::int;
–11以上版本
if(server_version>=110000) then
return _FreeGIS_Coordinate_Transform_1(schema_name,table_name,transform_type);
–低于11的版本
else
return _FreeGIS_Coordinate_Transform_2(schema_name,table_name,transform_type);
end if;
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–对表批量进行坐标转换
CREATE OR REPLACE FUNCTION _FreeGIS_Coordinate_Transform_1(
in schema_name text,–转换表的schema名称
in table_name text,–转换表名字
in transform_type FreeGIS_coordinate_transform_type–转换类型枚举型。
) RETURNS text As
B O D Y BODY BODY
DECLARE
rec record;
geom_name text;
geom_type text;
transform_function_name text;
_source_srid int;
_target_srid int;
BEGIN
–检查表是否存在
select * from pg_tables where schemaname=schema_name and tablename=table_name into rec;
if(rec is null) then
raise notice ‘坐标转换表不存在,可能scheam或tablename输入错误!’;
return ‘failed’;
end if;
--检查转换表是否为空间关系表
select * from geometry_columns where f_table_name=table_name and f_table_schema=schema_name into rec;
if(rec is null) then
raise notice '当前转换只支持带geometry类型的空间关系表!';
return 'failed';
end if;
--检查图形维度,当前只支持二维。
if(rec.coord_dimension!=2) then
raise notice '当前转换只支持二维图形坐标!';
return 'failed';
end if;
--检查图形坐标系,当前只支持4326坐标系(除将百度墨卡托转百度经纬度除外)
if(transform_type!='BDMKT2BDWGS' and transform_type!='BDMKT2WGS') then
if(rec.srid!=4326) then
raise notice '当前转换只支持数据源为WGS84(EPSG:4326)坐标系!';
raise notice '其他坐标系建议先自行转换到4326坐标系,然后使用该脚本进行批量坐标纠正!';
return 'failed';
end if;
else
--百度墨卡托转其他坐标系,转换方式为BD_MKT2WGS,数据源坐标系应当为3857
if(rec.srid!=3857) then
raise notice '百度墨卡托转其他坐标系,数据源坐标系必须为(EPSG:3857)坐标系!';
return 'failed';
end if;
end if;
geom_type:=rec.type;
geom_name:=rec.f_geometry_column;
--检查图形类型,仅仅支持Point,LineString,Polygon,MultiPoint,MultiLineString,MultiPolygon六种明确类型。
--类似geometry或者collection类型,由于指定不明确,不太好进行规律转化。
if(geom_type!='POINT' and geom_type!='MULTIPOINT' and geom_type!='LINESTRING' and geom_type!='MULTILINESTRING' AND
geom_type!='POLYGON' and geom_type!='MULTIPOLYGON') then
raise notice '当前转换只支持Point,LineString,Polygon,MultiPoint,MultiLineString,MultiPolygon六种基本图形类型!';
return 'failed';
end if;
--转换函数名称拼接
transform_function_name:='FreeGIS_'||transform_type;
--图形拆分成点,点图形 进行坐标 偏移转换。
--转换表新建转换结果字段,对原图形字段拆分,创建临时表存储拆分结果
if(transform_type='BDWGS2BDMKT' or transform_type='WGS2BDMKT') then
_source_srid:=4326;
_target_srid:=3857;
elsif(transform_type='BDMKT2BDWGS' or transform_type='BDMKT2WGS') then
_source_srid:=3857;
_target_srid:=4326;
else
_source_srid:=4326;
_target_srid:=4326;
end if;
execute format('alter table %I.%I drop column if exists transform_geom',schema_name,table_name);
execute format('alter table %I.%I add column transform_geom geometry(%s,%s)',schema_name,table_name,geom_type,_target_srid);
execute format('create temp table _split_result(
rec_ctid tid,
geom_path integer[],
source_geom geometry(Point,%s),
target_geom geometry(Point,%s)
) on commit drop',_source_srid,_target_srid);
raise notice '正在将图形拆分成点...';
--图形字段非空,将其拆分成点,存入临时表
execute format('insert into _split_result(rec_ctid,geom_path,source_geom) SELECT ctid,(pt).path,(pt).geom
FROM (SELECT ctid, ST_DumpPoints(%I) AS pt FROM %I.%I where ST_IsEmpty(%I)=false) as dump_points',geom_name,schema_name,table_name,geom_name);
raise notice '图形拆分成点完成!';
--临时表建立索引
raise notice '对拆分成点后的数据集建索引...';
create index _split_result_ctid_idx on _split_result using btree(rec_ctid);
raise notice '对拆分成点后的数据集建索引完成!';
--批量转换,从souce源转到target记录
raise notice '对拆分点进行偏移计算...';
execute format('update _split_result set target_geom=%s(source_geom)',transform_function_name);
raise notice '对拆分点进行偏移计算完成!';
raise notice '偏移计算结果拼装原图形...';
--转换完成后,拼装还原更改原表
case geom_type
when 'POINT' then
execute format('update %I.%I t1 set transform_geom=t2.target_geom from _split_result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'MULTIPOINT' then
execute format('with _result as (select rec_ctid,ST_Multi(ST_Union(target_geom)) as geom from _split_result group by rec_ctid)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'LINESTRING' then
execute format('with _result as (select rec_ctid,ST_MakeLine(target_geom) as geom from _split_result group by rec_ctid)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'MULTILINESTRING' then
execute format('with _result as (select t.rec_ctid,ST_Multi(ST_Union(t.geom)) as geom from
(select rec_ctid,geom_path[1],ST_MakeLine(target_geom) as geom from _split_result group by rec_ctid,geom_path[1]) t
group by t.rec_ctid)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'POLYGON' then
execute format('with _result as (
with _polygon_result as (select rec_ctid,geom_path[1] as _path,ST_MakeLine(target_geom) as geom from _split_result group by rec_ctid,_path)
select t1.rec_ctid,case when t2.geom is null then ST_MakePolygon(t1.geom) else ST_MakePolygon(t1.geom,t2.geom) end as geom
from (select rec_ctid,geom from _polygon_result t where t._path=1) t1 left join
(select rec_ctid,array_agg(geom) as geom from _polygon_result t where t._path!=1 group by rec_ctid) t2 on t1.rec_ctid=t2.rec_ctid)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'MULTIPOLYGON' then
execute format('with _result as (
with _Multi_Polygon_result as (
with _polygon_result as (select rec_ctid,geom_path[1] as _path1,
geom_path[2] as _path2,ST_MakeLine(target_geom) as geom from _split_result group by rec_ctid,_path1, _path2)
select t1.rec_ctid,t1._path1,case when t2.geom is null then ST_MakePolygon(t1.geom) else ST_MakePolygon(t1.geom,t2.geom) end as geom
from (select rec_ctid,_path1,geom from _polygon_result t where t._path2=1) t1 left join
(select rec_ctid,_path1,array_agg(geom) as geom from _polygon_result t where t._path2!=1 group by rec_ctid,_path1) t2
on t1.rec_ctid=t2.rec_ctid
)
select t.rec_ctid,ST_Multi(ST_Union(geom)) as geom from _Multi_Polygon_result t group by t.rec_ctid
)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
else
raise notice '不是当前支持的图形类型!';
return 'failed';
end case;
raise notice '偏移计算结果拼装原图形完成!';
return 'success';
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;
–对表批量进行坐标转换
CREATE OR REPLACE FUNCTION _FreeGIS_Coordinate_Transform_2(
in schema_name text,–转换表的schema名称
in table_name text,–转换表名字
in transform_type FreeGIS_coordinate_transform_type–转换类型枚举型。
) RETURNS text As
B O D Y BODY BODY
DECLARE
rec record;
geom_name text;
geom_type text;
transform_function_name text;
_source_srid int;
_target_srid int;
beforerec record;
_init boolean;
_line geometry;
_multiline geometry;
BEGIN
–检查表是否存在
select * from pg_tables where schemaname=schema_name and tablename=table_name into rec;
if(rec is null) then
raise notice ‘坐标转换表不存在,可能scheam或tablename输入错误!’;
return ‘failed’;
end if;
--检查转换表是否为空间关系表
select * from geometry_columns where f_table_name=table_name and f_table_schema=schema_name into rec;
if(rec is null) then
raise notice '当前转换只支持带geometry类型的空间关系表!';
return 'failed';
end if;
--检查图形维度,当前只支持二维。
if(rec.coord_dimension!=2) then
raise notice '当前转换只支持二维图形坐标!';
return 'failed';
end if;
--检查图形坐标系,当前只支持4326坐标系(除将百度墨卡托转百度经纬度除外)
if(transform_type!='BDMKT2BDWGS' and transform_type!='BDMKT2WGS') then
if(rec.srid!=4326) then
raise notice '当前转换只支持数据源为WGS84(EPSG:4326)坐标系!';
raise notice '其他坐标系建议先自行转换到4326坐标系,然后使用该脚本进行批量坐标纠正!';
return 'failed';
end if;
else
--百度墨卡托转其他坐标系,转换方式为BD_MKT2WGS,数据源坐标系应当为3857
if(rec.srid!=3857) then
raise notice '百度墨卡托转其他坐标系,数据源坐标系必须为(EPSG:3857)坐标系!';
return 'failed';
end if;
end if;
geom_type:=rec.type;
geom_name:=rec.f_geometry_column;
--检查图形类型,仅仅支持Point,LineString,Polygon,MultiPoint,MultiLineString,MultiPolygon六种明确类型。
--类似geometry或者collection类型,由于指定不明确,不太好进行规律转化。
if(geom_type!='POINT' and geom_type!='MULTIPOINT' and geom_type!='LINESTRING' and geom_type!='MULTILINESTRING' AND
geom_type!='POLYGON' and geom_type!='MULTIPOLYGON') then
raise notice '当前转换只支持Point,LineString,Polygon,MultiPoint,MultiLineString,MultiPolygon六种基本图形类型!';
return 'failed';
end if;
--转换函数名称拼接
transform_function_name:='FreeGIS_'||transform_type;
--图形拆分成点,点图形 进行坐标 偏移转换。
--转换表新建转换结果字段,对原图形字段拆分,创建临时表存储拆分结果
if(transform_type='BDWGS2BDMKT' or transform_type='WGS2BDMKT') then
_source_srid:=4326;
_target_srid:=3857;
elsif(transform_type='BDMKT2BDWGS' or transform_type='BDMKT2WGS') then
_source_srid:=3857;
_target_srid:=4326;
else
_source_srid:=4326;
_target_srid:=4326;
end if;
execute format('alter table %I.%I drop column if exists transform_geom',schema_name,table_name);
execute format('alter table %I.%I add column transform_geom geometry(%s,%s)',schema_name,table_name,geom_type,_target_srid);
execute format('create temp table _split_result(
rec_ctid tid,
geom_path integer[],
source_geom geometry(Point,%s),
target_geom geometry(Point,%s)
) on commit drop',_source_srid,_target_srid);
raise notice '正在将图形拆分成点...';
--图形字段非空,将其拆分成点,存入临时表
execute format('insert into _split_result(rec_ctid,geom_path,source_geom) SELECT ctid,(pt).path,(pt).geom
FROM (SELECT ctid, ST_DumpPoints(%I) AS pt FROM %I.%I where ST_IsEmpty(%I)=false) as dump_points',geom_name,schema_name,table_name,geom_name);
raise notice '图形拆分成点完成!';
--临时表建立索引
raise notice '对拆分成点后的数据集建索引...';
create index _split_result_ctid_idx on _split_result using btree(rec_ctid);
raise notice '对拆分成点后的数据集建索引完成!';
--批量转换,从souce源转到target记录
raise notice '对拆分点进行偏移计算...';
execute format('update _split_result set target_geom=%s(source_geom)',transform_function_name);
raise notice '对拆分点进行偏移计算完成!';
raise notice '偏移计算结果拼装原图形...';
--转换完成后,拼装还原更改原表
case geom_type
when 'POINT' then
execute format('update %I.%I t1 set transform_geom=t2.target_geom from _split_result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'MULTIPOINT' then
execute format('with _result as (select rec_ctid,ST_Multi(ST_Union(target_geom)) as geom from _split_result group by rec_ctid)
update %I.%I t1 set transform_geom=t2.geom from _result t2 where t1.ctid=t2.rec_ctid',
schema_name,table_name);
when 'LINESTRING' then
_init:=true;
for rec in select * from _split_result order by rec_ctid,geom_path loop
if(_init=true) then
beforerec:=rec;
_init:=false;
continue;
end if;
if(beforerec.rec_ctid!=rec.rec_ctid) then
execute format('update %I.%I set transform_geom=$1 where ctid=$2',schema_name,table_name) using _line,beforerec.rec_ctid;
--之前与之后的记录,同属一个rec_ctid
else
if(rec.geom_path[1]=2) then
_line=ST_MakeLine(beforerec.target_geom,rec.target_geom);
else
_line:=ST_AddPoint(_line,rec.target_geom);
end if;
end if;
beforerec:=rec;
end loop;
execute format('update %I.%I set transform_geom=$1 where ctid=$2',schema_name,table_name) using _line,beforerec.rec_ctid;
when 'MULTILINESTRING' then
execute format('create temp table temp_linestring(
gid serial,
rec_ctid tid,
line geometry(LineString,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_linestring_ctid_idx on temp_linestring using btree(rec_ctid);
_init:=true;
for rec in select * from _split_result order by rec_ctid,geom_path loop
if(_init=true) then
beforerec:=rec;
_init:=false;
continue;
end if;
--如果 记录数 或者 图形序号 不一致
if(beforerec.rec_ctid!=rec.rec_ctid or beforerec.geom_path[1]!=rec.geom_path[1]) then
execute format('insert into temp_linestring(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
--之前与之后的记录,同属一个rec_ctid
else
if(rec.geom_path[2]=2) then
_line=ST_MakeLine(beforerec.target_geom,rec.target_geom);
else
_line:=ST_AddPoint(_line,rec.target_geom);
end if;
end if;
beforerec:=rec;
end loop;
execute format('insert into temp_linestring(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
--对临时linestring表聚合成Multilingstring
execute format('update %I.%I t1 set transform_geom=t2.geom from (select rec_ctid,ST_Multi(ST_Union(line)) as geom from temp_linestring group by rec_ctid) t2 where t1.ctid=t2.rec_ctid',schema_name,table_name);
when 'POLYGON' then
--isoutlinestring为true代表外环,false是内环
execute format('create temp table temp_outerlinestring(
rec_ctid tid,
line geometry(LineString,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_outerlinestring_ctid_idx on temp_outerlinestring using btree(rec_ctid);
execute format('create temp table temp_interiorlinestrings(
rec_ctid tid,
line geometry(LineString,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_interiorlinestrings_ctid_idx on temp_interiorlinestrings using btree(rec_ctid);
_init:=true;
for rec in select * from _split_result order by rec_ctid,geom_path loop
if(_init=true) then
beforerec:=rec;
_init:=false;
continue;
end if;
--如果 记录数 或者 图形序号 不一致
if(beforerec.rec_ctid!=rec.rec_ctid or beforerec.geom_path[1]!=rec.geom_path[1]) then
--=1是外环
if(beforerec.geom_path[1]=1) then
execute format('insert into temp_outerlinestring(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
else
execute format('insert into temp_interiorlinestrings(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
end if;
--之前与之后的记录,同属一个rec_ctid
else
if(rec.geom_path[2]=2) then
_line=ST_MakeLine(beforerec.target_geom,rec.target_geom);
else
_line:=ST_AddPoint(_line,rec.target_geom);
end if;
end if;
beforerec:=rec;
end loop;
--=1是外环
if(beforerec.geom_path[1]=1) then
execute format('insert into temp_outerlinestring(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
else
execute format('insert into temp_interiorlinestrings(rec_ctid,line) values($1,$2)') using beforerec.rec_ctid,_line;
end if;
--对临时linestring表聚合成Polygon
execute format('update %I.%I t1 set transform_geom=case when t2.interiorlinestrings is null then ST_MakePolygon(t2.outerlinestring) else ST_MakePolygon(t2.outerlinestring,t2.interiorlinestrings)
end from (select t1.rec_ctid,t1.line as outerlinestring,t2.interiorlinestrings from temp_outerlinestring t1 left join (select rec_ctid,array_agg(line) as interiorlinestrings from temp_interiorlinestrings group by rec_ctid) t2
on t1.rec_ctid=t2.rec_ctid) t2 where t1.ctid=t2.rec_ctid',schema_name,table_name);
when 'MULTIPOLYGON' then
--isoutlinestring为true代表外环,false是内环
execute format('create temp table temp_outerlinestring(
rec_ctid tid,
polygon_idx int,
line geometry(LineString,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_outerlinestring_ctid_idx on temp_outerlinestring using btree(rec_ctid);
execute format('create temp table temp_interiorlinestrings(
rec_ctid tid,
polygon_idx int,
line geometry(LineString,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_interiorlinestrings_ctid_idx on temp_interiorlinestrings using btree(rec_ctid);
execute format('create temp table temp_polygons(
rec_ctid tid,
polygon geometry(MultiPOLYGON,%s)
) on commit drop',_target_srid);
--建立索引
create index temp_polygons_ctid_idx on temp_polygons using btree(rec_ctid);
_init:=true;
for rec in select * from _split_result order by rec_ctid,geom_path loop
if(_init=true) then
beforerec:=rec;
_init:=false;
continue;
end if;
--如果 记录数 或者 图形序号 不一致
if(beforerec.rec_ctid!=rec.rec_ctid or beforerec.geom_path[1]!=rec.geom_path[1] or beforerec.geom_path[2]!=rec.geom_path[2]) then
--=1是外环
if(beforerec.geom_path[2]=1) then
execute format('insert into temp_outerlinestring(rec_ctid,polygon_idx,line) values($1,$2,$3)') using beforerec.rec_ctid,beforerec.geom_path[2],_line;
else
execute format('insert into temp_interiorlinestrings(rec_ctid,polygon_idx,line) values($1,$2,$3)') using beforerec.rec_ctid,beforerec.geom_path[2],_line;
end if;
--之前与之后的记录,同属一个rec_ctid
else
if(rec.geom_path[3]=2) then
_line=ST_MakeLine(beforerec.target_geom,rec.target_geom);
else
_line:=ST_AddPoint(_line,rec.target_geom);
end if;
end if;
beforerec:=rec;
end loop;
--=1是外环
if(beforerec.geom_path[2]=1) then
execute format('insert into temp_outerlinestring(rec_ctid,polygon_idx,line) values($1,$2,$3)') using beforerec.rec_ctid,beforerec.geom_path[2],_line;
else
execute format('insert into temp_interiorlinestrings(rec_ctid,polygon_idx,line) values($1,$2,$3)') using beforerec.rec_ctid,beforerec.geom_path[2],_line;
end if;
--写入临时 polygon表
insert into temp_polygons(rec_ctid,polygon) select t1.rec_ctid,ST_Multi(ST_Union(t1.geom)) from
(
select t.rec_ctid,case when t.interiorlinestrings is null then ST_MakePolygon(t.outerlinestring) else ST_MakePolygon(t.outerlinestring,t.interiorlinestrings)
end as geom from
(select t1.rec_ctid,t1.line as outerlinestring,t2.interiorlinestrings from temp_outerlinestring t1
left join (select rec_ctid,array_agg(line) as interiorlinestrings from temp_interiorlinestrings group by rec_ctid) t2
on t1.rec_ctid=t2.rec_ctid) t
) t1
group by t1.rec_ctid;
--对临时linestring表聚合成MultiPolygon
execute format('update %I.%I t1 set transform_geom=t2.polygon from temp_polygons t2 where t1.ctid=t2.rec_ctid',schema_name,table_name);
else
raise notice '不是当前支持的图形类型!';
return 'failed';
end case;
raise notice '偏移计算结果拼装原图形完成!';
return 'success';
END;
B O D Y BODY BODY
LANGUAGE ‘plpgsql’ VOLATILE STRICT;