基于postGIS的室内地图最短路径算法四
在上一篇博文基于postGIS的室内地图最短路径算法三,虽然路径分析的结果,最后返回了起点到终点的完整线路,但是可能产生起点或终点到路网的连线穿越障碍物的情况,这里就需要用虚线表示。
这样就需要将路径分析的结果分三条记录返回,起点到路网、路网中路径、路网到终点线,并需要对这三段线进行区别。然后在Goeserver中配置样式。
运行结果如下图所示:
数据库代码:
--DROP FUNCTION pgr_floor_test3(character varying, double precision, double precision, double precision, double precision, integer);
--tbl路网表名
--startx起点经度
--starty起点纬度
--endx终点经度
--endy终点纬度
--fnumber楼层
CREATE OR REPLACE function pgr_floor_test3(IN tbl varchar,IN startx float,IN starty float,IN endx float,IN endy float,IN fnumber integer,OUT lineType integer,OUT geom geometry)
--限制返回类型
returns SETOF record as
$body$
declare
fmin integer;
fmax integer;
v_startLine geometry;--离起点最近的线
v_endLine geometry;--离终点最近的线
v_startTarget integer;--距离起点最近线的终点
v_startSource integer;
v_endSource integer;--距离终点最近线的起点
v_endTarget integer;
v_statpoint geometry;--在v_startLine上距离起点最近的点
v_endpoint geometry;--在v_endLine上距离终点最近的点
v_res geometry;--最短路径分析结果
v_res_a geometry;
v_res_b geometry;
v_res_c geometry;
v_res_d geometry;
v_perStart float;--v_statpoint在v_res上的百分比
v_perEnd float;--v_endpoint在v_res上的百分比
v_shPath_se geometry;--开始到结束
v_shPath_es geometry;--结束到开始
v_shPath geometry;--最终结果
tempnode float;
startpoint geometry;
endpoint geometry;
v_shPath1 geometry;--一次结果
v_shPath2 geometry;--二次结果
star_line geometry; --起点到最近点的线
end_line geometry; --终点到最近点的线
geoARR geometry[];
geoType integer[];
lines myline[];--返回线集
line1 myline;
line2 myline;
line3 myline;
ii integer;
begin
fmin=fnumber*1000;
fmax=fmin+1000;
raise notice '%', fmin;
raise notice '%', fmax;
--查询离起点最近的线
--4326坐标系
--找起点15米范围内的最近线
execute 'select geom, source, target from ' ||tbl||
' where ST_DWithin(geom,ST_Geometryfromtext(''point('|| startx ||' ' || starty||')'',4326),15)
and source between '||fmin||' and '||fmax||' order by ST_Distance(geom,ST_GeometryFromText(''point('|| startx ||' '|| starty ||')'',4326)) limit 1'
into v_startLine, v_startSource ,v_startTarget;
raise notice '%', v_startSource;
raise notice '%', v_startTarget;
--查询离终点最近的线
--找终点15米范围内的最近线
execute 'select geom, source, target from ' ||tbl||
' where ST_DWithin(geom,ST_Geometryfromtext(''point('|| endx || ' ' || endy ||')'',4326),15)
and source between '||fmin||' and '||fmax||'
order by ST_Distance(geom,ST_GeometryFromText(''point('|| endx ||' ' || endy ||')'',4326)) limit 1'
into v_endLine, v_endSource,v_endTarget;
raise notice '%', v_endSource;
raise notice '%', v_endTarget;
--如果没找到最近的线,就返回null
if (v_startLine is null) or (v_endLine is null) then
return;
end if ;
select ST_ClosestPoint(v_startLine, ST_Geometryfromtext('point('|| startx ||' ' || starty ||')',4326)) into v_statpoint;
select ST_ClosestPoint(v_endLine, ST_GeometryFromText('point('|| endx ||' ' || endy ||')',4326)) into v_endpoint;
-- ST_Distance
--从开始的起点到结束的起点最短路径
execute 'SELECT st_linemerge(st_union(b.geom)) ' ||
'FROM pgr_kdijkstraPath(
''SELECT gid as id, source, target, length as cost FROM ' || tbl ||''','
||v_startSource || ', ' ||'array['||v_endSource||'] , false, false
) a, '
|| tbl || ' b
WHERE a.id3=b.gid
GROUP by id1
ORDER by id1' into v_res ;
--从开始的终点到结束的起点最短路径
execute 'SELECT st_linemerge(st_union(b.geom)) ' ||
'FROM pgr_kdijkstraPath(
''SELECT gid as id, source, target, length as cost FROM ' || tbl ||''','
||v_startTarget || ', ' ||'array['||v_endSource||'] , false, false
) a, '
|| tbl || ' b
WHERE a.id3=b.gid
GROUP by id1
ORDER by id1' into v_res_b ;
--从开始的起点到结束的终点最短路径
execute 'SELECT st_linemerge(st_union(b.geom)) ' ||
'FROM pgr_kdijkstraPath(
''SELECT gid as id, source, target, length as cost FROM ' || tbl ||''','
||v_startSource || ', ' ||'array['||v_endTarget||'] , false, false
) a, '
|| tbl || ' b
WHERE a.id3=b.gid
GROUP by id1
ORDER by id1' into v_res_c ;
--从开始的终点到结束的终点最短路径
execute 'SELECT st_linemerge(st_union(b.geom)) ' ||
'FROM pgr_kdijkstraPath(
''SELECT gid as id, source, target, length as cost FROM ' || tbl ||''','
||v_startTarget || ', ' ||'array['||v_endTarget||'] , false, false
) a, '
|| tbl || ' b
WHERE a.id3=b.gid
GROUP by id1
ORDER by id1' into v_res_d ;
if(ST_Length(v_res) > ST_Length(v_res_b)) then
v_res = v_res_b;
end if;
if(ST_Length(v_res) > ST_Length(v_res_c)) then
v_res = v_res_c;
end if;
if(ST_Length(v_res) > ST_Length(v_res_d)) then
v_res = v_res_d;
end if;
--如果找不到最短路径,就返回null
if(v_res is null) then
return;
end if;
--将v_res,v_startLine,v_endLine进行拼接
select st_linemerge(ST_Union(array[v_res,v_startLine,v_endLine])) into v_res;
--return v_res;
select ST_LineLocatePoint(v_res, v_statpoint) into v_perStart;
select ST_LineLocatePoint(v_res, v_endpoint) into v_perEnd;
if(v_perStart > v_perEnd) then
tempnode = v_perStart;
v_perStart = v_perEnd;
v_perEnd = tempnode;
end if;
--截取v_res
--拼接线
SELECT ST_Line_SubString(v_res,v_perStart, v_perEnd) into v_shPath1;
--接下来进行
--找线的端点
-- select ST_ClosestPoint(v_endLine, ST_GeometryFromText('point('|| endx ||' ' || endy ||')',4326)) into v_endpoint;
-- select ST_MakePoint(endx , endy) into startpoint;
select ST_SetSRID( ST_MakePoint(startx , starty),4326 )into startpoint;
select ST_SetSRID( ST_MakePoint(endx , endy),4326 )into endpoint;
select ST_MakeLine( v_statpoint,startpoint) into star_line;
select ST_MakeLine( v_endpoint,endpoint) into end_line;
-- select st_union(end_line,v_shPath1) into v_shPath2;
--select st_union(star_line,v_shPath2) into v_shPath;
--line1.id=1;
--line1.geom=star_line;
--line2.id=2;
--line2.geom=v_shPath1;
--line3.id=3;
--line3.geom=end_line;
--lines[0]=line1;
--lines[1]=line2;
--lines[2]=line3;
geoARR :=array[end_line,v_shPath1,star_line];
geoType :=array[1,2,1];
--select st_union(geoARR) into v_shPath;
--raise notice '%', '返回数据';
--OUT lineType integer,OUT geom geometry
FOR ii IN 1..3 Loop
lineType:=geoType[ii];
geom:=geoARR[ii];
raise notice '%', '返回数据';
return next;
end loop;
return;
--return geoARR;
--return lines;
--return v_shPath;
end;
$body$
LANGUAGE plpgsql VOLATILE STRICT;样式代码如下:
<?xml version="1.0" encoding="GBK"?><sld:StyledLayerDescriptor xmlns="http://www.opengis.net/sld" xmlns:sld="http://www.opengis.net/sld" xmlns:gml="http://www.opengis.net/gml" xmlns:ogc="http://www.opengis.net/ogc" version="1.0.0">
<sld:UserLayer>
<sld:LayerFeatureConstraints>
<sld:FeatureTypeConstraint/>
</sld:LayerFeatureConstraints>
<sld:UserStyle>
<sld:Name>F34</sld:Name>
<sld:FeatureTypeStyle>
<sld:Name>group 0</sld:Name>
<sld:FeatureTypeName>Feature</sld:FeatureTypeName>
<sld:SemanticTypeIdentifier>generic:geometry</sld:SemanticTypeIdentifier>
<sld:SemanticTypeIdentifier>simple</sld:SemanticTypeIdentifier>
<sld:Rule>
<sld:Name>虚线</sld:Name>
<ogc:Filter>
<ogc:PropertyIsEqualTo>
<ogc:PropertyName>linetype</ogc:PropertyName>
<ogc:Literal>1</ogc:Literal>
</ogc:PropertyIsEqualTo>
</ogc:Filter>
<sld:LineSymbolizer>
<sld:Stroke>
<sld:CssParameter name="stroke">#00FF40</sld:CssParameter>
<sld:CssParameter name="stroke-width">2.0</sld:CssParameter>
<sld:CssParameter name="stroke-dasharray">5.0</sld:CssParameter>
</sld:Stroke>
</sld:LineSymbolizer>
</sld:Rule>
<sld:Rule>
<sld:Name>实线</sld:Name>
<ogc:Filter>
<ogc:PropertyIsEqualTo>
<ogc:PropertyName>linetype</ogc:PropertyName>
<ogc:Literal>2</ogc:Literal>
</ogc:PropertyIsEqualTo>
</ogc:Filter>
<sld:LineSymbolizer>
<sld:Stroke>
<sld:CssParameter name="stroke">#FF0000</sld:CssParameter>
<sld:CssParameter name="stroke-width">2.0</sld:CssParameter>
</sld:Stroke>
</sld:LineSymbolizer>
</sld:Rule>
</sld:FeatureTypeStyle>
</sld:UserStyle>
</sld:UserLayer>
</sld:StyledLayerDescriptor>
转载自:https://blog.csdn.net/GISuuser/article/details/79724289
