Version 40 (modified by 3 years ago) ( diff ) | ,
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User-contributed Functions
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User-contributed Functions
- Construct Ellipse from X,Y
- Construct Ellipse from Point
- Construct an arc given two points on the arc, the centre point and …
- Convert Degree Minutes Seconds to Decimal Degrees
- Find Length of Day for a given location and date
- Rotate Geometry around a Point
- Construct a multilinestring consisting of the interior and exterior …
- Offset a straight line
This is an area to put utility functions or wrappers around PostGIS.
Construct Ellipse from X,Y
CREATE OR REPLACE FUNCTION ST_Ellipse( x double precision, y double precision, rx double precision, ry double precision, rotation double precision DEFAULT 0.0, quadSeg integer DEFAULT 8) RETURNS geometry AS $$ SELECT ST_Translate( ST_Rotate( ST_Scale( ST_Buffer(ST_Point(0,0), 0.5, quadSeg), rx, ry), rotation), x, y) $$ LANGUAGE 'sql';
Construct Ellipse from Point
-- pt - center point -- rx, ry - X radius, Y radius -- rotation - CW rotation in radians -- quadSeg - number of segments in a quadrant CREATE OR REPLACE FUNCTION ST_Ellipse( pt geometry, rx double precision, ry double precision, rotation double precision DEFAULT 0.0, quadSeg integer DEFAULT 8) RETURNS geometry AS $$ SELECT ST_Translate( ST_Rotate( ST_Scale( ST_Buffer(ST_Point(0,0), 0.5, quadSeg), rx, ry), rotation), ST_X(pt), ST_Y(pt)) $$ LANGUAGE 'sql';
Construct an arc given two points on the arc, the centre point and direction or size
CREATE FUNCTION ST_Arc(startpoint geometry, endpoint geometry, arcenter geometry, direction text) RETURNS geometry AS $$ DECLARE cwpointonarc geometry; ccpointonarc geometry; ccarc text; cwarc text; cwdirection float; ccdirection float; midpointrads float; arcenterutm geometry; startpointutm geometry; endpointutm geometry; thearc geometry; majorarc text; minorarc text; BEGIN arcenterutm := st_transform(arcenter,utmzone(arcenter)); startpointutm := st_transform(startpoint,utmzone(arcenter)); endpointutm := st_transform(endpoint,utmzone(arcenter)); midpointrads := abs(st_azimuth(arcenterutm,startpointutm) - st_azimuth(arcenterutm,endpointutm)); IF midpointrads > pi() THEN midpointrads:= (midpointrads - pi())/2; ELSE midpointrads:= midpointrads/2; END IF; IF midpointrads > st_azimuth(arcenterutm,startpointutm) THEN midpointrads:= st_azimuth(arcenterutm,startpointutm)/2; END IF; IF midpointrads > st_azimuth(arcenterutm,endpointutm) THEN midpointrads:= st_azimuth(arcenterutm,endpointutm)/2; END IF; cwdirection := -1*midpointrads; ccdirection := midpointrads; cwpointonarc := ST_Translate( ST_Rotate( ST_Translate( startpointutm, -1*ST_X(arcenterutm), -1*ST_Y(arcenterutm)), cwdirection), ST_X(arcenterutm), ST_Y(arcenterutm)); ccpointonarc := ST_Translate( ST_Rotate( ST_Translate( startpointutm, -1*ST_X(arcenterutm), -1*ST_Y(arcenterutm)), ccdirection), ST_X(arcenterutm), ST_Y(arcenterutm)); cwarc := 'CIRCULARSTRING('||ST_X(startpointutm)||' '||ST_Y(startpointutm)||','||ST_X(cwpointonarc)||' '||ST_Y(cwpointonarc)||','||ST_X(endpointutm)||' '||ST_Y(endpointutm)||')'; ccarc := 'CIRCULARSTRING('||ST_X(startpointutm)||' '||ST_Y(startpointutm)||','||ST_X(ccpointonarc)||' '||ST_Y(ccpointonarc)||','||ST_X(endpointutm)||' '||ST_Y(endpointutm)||')'; IF st_length(st_curvetoline(cwarc)) > st_length(st_curvetoline(ccarc)) THEN majorarc := cwarc; minorarc := ccarc; ELSE majorarc := ccarc; minorarc := cwarc; END IF; IF direction = 'major' THEN RETURN st_transform(st_setsrid(st_curvetoline(majorarc),utmzone(arcenter)),st_srid(arcenter)); ELSE IF direction = 'minor' THEN RETURN st_transform(st_setsrid(st_curvetoline(minorarc),utmzone(arcenter)),st_srid(arcenter)); END IF; END IF; IF direction = 'cw' THEN RETURN st_transform(st_setsrid(st_curvetoline(cwarc),utmzone(arcenter)),st_srid(arcenter)); ELSE IF direction = 'cc' THEN RETURN st_transform(st_setsrid(st_curvetoline(ccarc),utmzone(arcenter)),st_srid(arcenter)); END IF; END IF; END; $$ LANGUAGE 'plpgsql' IMMUTABLE; COMMENT ON FUNCTION st_createarc(geometry,geometry,geometry,text) IS 'Generates an arc based on starting point, ending point, centre of arc, and direction (clockwise: \'cw\', conter-clockwise: \'cc\', or size \'major\' or \'minor\'). All geometries must be of type POINT and this function returns a linestring of the arc based on the original SRID and 32 points per quarter circle. Requires the utmzone function.';
Convert Degree Minutes Seconds to Decimal Degrees
This is from Simon Greener's article DMS2DD for PostGIS and is an adaptation of his Oracle function described in Converting Google Earth Formatted Longitude/Latitude points to decimal degrees
Example use:
SELECT round(dms2dd('43° 0''50.60"S'),9) as latitude, round(dms2dd('147°12''18.20"E'),9) as longitude;
CREATE OR REPLACE FUNCTION DMS2DD(strDegMinSec varchar) RETURNS numeric AS $$ DECLARE i numeric; intDmsLen numeric; -- Length of original string strCompassPoint Char(1); strNorm varchar(16) = ''; -- Will contain normalized string strDegMinSecB varchar(100); blnGotSeparator integer; -- Keeps track of separator sequences arrDegMinSec varchar[]; -- TYPE stringarray is table of varchar(2048) ; dDeg numeric := 0; dMin numeric := 0; dSec numeric := 0; strChr Char(1); BEGIN -- Remove leading and trailing spaces strDegMinSecB := REPLACE(strDegMinSec,' ',''); -- assume no leading and trailing spaces? intDmsLen := Length(strDegMinSecB); blnGotSeparator := 0; -- Not in separator sequence right now -- Loop over string, replacing anything that is not a digit or a -- decimal separator with -- a single blank FOR i in 1..intDmsLen LOOP -- Get current character strChr := SubStr(strDegMinSecB, i, 1); -- either add character to normalized string or replace -- separator sequence with single blank If strpos('0123456789,.', strChr) > 0 Then -- add character but replace comma with point If (strChr <> ',') Then strNorm := strNorm || strChr; Else strNorm := strNorm || '.'; End If; blnGotSeparator := 0; ElsIf strpos('neswNESW',strChr) > 0 Then -- Extract Compass Point if present strCompassPoint := strChr; Else -- ensure only one separator is replaced with a blank - -- suppress the rest If blnGotSeparator = 0 Then strNorm := strNorm || ' '; blnGotSeparator := 0; End If; End If; End Loop; -- Split normalized string into array of max 3 components arrDegMinSec := string_to_array(strNorm, ' '); --convert specified components to double i := array_upper(arrDegMinSec,1); If i >= 1 Then dDeg := CAST(arrDegMinSec[1] AS numeric); End If; If i >= 2 Then dMin := CAST(arrDegMinSec[2] AS numeric); End If; If i >= 3 Then dSec := CAST(arrDegMinSec[3] AS numeric); End If; -- convert components to value return (CASE WHEN UPPER(strCompassPoint) IN ('S','W') THEN -1 ELSE 1 END * (dDeg + dMin / 60 + dSec / 3600)); End $$ LANGUAGE 'plpgsql' IMMUTABLE;
Find Length of Day for a given location and date
CREATE OR REPLACE FUNCTION daylength(geometry, date) RETURNS double precision AS $$ SELECT 24*(ACOS(1-(1-TAN(radians(Y(transform($1,4326))))*TAN(.409088 * COS(.0172024 * extract(doy from $2)))))/PI()); $$ LANGUAGE 'sql';
Rotate Geometry around a Point
Superseded by ST_Rotate.
CREATE OR REPLACE FUNCTION RotateAtPoint( geom geometry, pt_x double precision, pt_y double precision, angle double precision) RETURNS geometry AS $$ SELECT ST_Translate( ST_Rotate( ST_Translate( $1, -1*$2, -1*$3), $4), $2, $3) $$ LANGUAGE 'sql';
Construct a multilinestring consisting of the interior and exterior rings of a polygon/multipolygon
Superseded by ST_Boundary(geometry)
Example use: - where the_geom is a multipolygon SELECT fnpoly_to_rings(the_geom) FROM sometable CREATE OR REPLACE FUNCTION fnpoly_to_rings(geometry) RETURNS geometry AS $$ SELECT ST_Collect(the_line) as multiline FROM (SELECT ST_ExteriorRing(the_poly) as the_line FROM (SELECT ST_GeometryN($1, g.n) As the_poly FROM generate_series(1, ST_NumGeometries($1)) As g(n) ) As polys UNION ALL SELECT ST_InteriorRingN(the_poly, generate_series(1, ST_NumInteriorRings(the_poly))) as the_line FROM (SELECT ST_GeometryN($1, g.n) As the_poly FROM generate_series(1, ST_NumGeometries($1)) As g(n) ) As polys ) As all_lines $$ LANGUAGE 'sql' IMMUTABLE; COMMENT ON FUNCTION fnpoly_to_rings(geometry) IS 'Takes as argument a multipolygon or polygon and returns a multilinestring consisting of the interior and exterior rings of the polygon/multipolygon';
Offset a straight line
This was written before the existence of ST_OffsetCurve(http://postgis.net/docs/ST_OffsetCurve.html), which does the same thing and can handle non-straight lines
CREATE OR REPLACE FUNCTION upgis_lineshift(centerline geometry, dist double precision) RETURNS geometry AS $$ DECLARE delx float; dely float; x0 float; y0 float; x1 float; y1 float; az float; dir integer; line geometry; BEGIN az := ST_Azimuth (ST_StartPoint(centerline), ST_EndPoint(centerline)); dir := CASE WHEN az < pi() THEN -1 ELSE 1 END; delx := ABS(COS(az)) * dist * dir; dely := ABS(SIN(az)) * dist * dir; IF az > pi()/2 AND az < pi() OR az > 3 * pi()/2 THEN line := ST_Translate(centerline, delx, dely) ; ELSE line := ST_Translate(centerline, -delx, dely); END IF; RETURN line; END; $$ LANGUAGE 'plpgsql' IMMUTABLE; COMMENT ON FUNCTION upgis_lineshift(geometry, double precision) IS 'Takes a 2D line string and shifts it dist units along the perpendicular defined by the straight line between the start and end point Convention: (right is positive and left is negative. right being defined as to right of observer standing at start point and looking down the end point)';
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