postgis/doc/xsl/postgis_gardentest_subset.sql.xsl

<?xml version="1.0" encoding="utf-8"?>
<xsl:stylesheet version="1.0" xmlns:xsl="http://www.w3.org/1999/XSL/Transform"  xmlns:pgis="http://www.postgis.org/pgis">
<!-- ********************************************************************
 ********************************************************************
	 Copyright 2009, Regina Obe
	 License: BSD
	 Purpose: This is an xsl transform that generates an sql test script from xml docs to test all the functions we have documented
			using a garden variety of geometries.  Its intent is to flag major crashes.  This version is similar to the full but designed to
			test more geometries but only against one function.  Useful for intro of new functions or comparing major changes from function of one version of PostGIS to the other
	 ******************************************************************** -->
	<xsl:output method="text" />
	<xsl:variable name='testversion'>2.1.0</xsl:variable>
	<xsl:variable name="fninclude"><xsl:value-of select="$inputfninclude"/></xsl:variable>
	<xsl:variable name='var_srid'>3395</xsl:variable>
	<xsl:variable name='var_position'>1</xsl:variable>
	<xsl:variable name='var_integer1'>3</xsl:variable>
	<xsl:variable name='var_integer2'>5</xsl:variable>
	<xsl:variable name='var_float1'>0.5</xsl:variable>
	<xsl:variable name='var_float2'>0.75</xsl:variable>
	<xsl:variable name='var_distance'>100</xsl:variable>
	<xsl:variable name='var_version1'>1</xsl:variable>
	<xsl:variable name='var_version2'>2</xsl:variable>
	<xsl:variable name='var_NDRXDR'>XDR</xsl:variable>
	<xsl:variable name='var_text'>'monkey'</xsl:variable>
	<xsl:variable name='var_varchar'>'test'</xsl:variable>
	<xsl:variable name='var_spheroid'>'SPHEROID["GRS_1980",6378137,298.257222101]'</xsl:variable>
	<xsl:variable name='var_matrix'>'FF1FF0102'</xsl:variable>
	<xsl:variable name='var_boolean'>false</xsl:variable>
	<pgis:gardens>
	<pgis:gset ID='PointSet' GeometryType='POINT'>(SELECT ST_SetSRID(ST_Point(i,j),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 15) j
			ORDER BY i,j
			)</pgis:gset>
		<pgis:gset ID='LineSet' GeometryType='LINESTRING'>(SELECT ST_MakeLine(ST_SetSRID(ST_Point(i,j),4326),ST_SetSRID(ST_Point(j,i),4326))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 15) As j
			WHERE NOT(i = j)
			ORDER BY i, i*j)</pgis:gset>
		<pgis:gset ID='PolySet' GeometryType='POLYGON'>(SELECT ST_Buffer(ST_SetSRID(ST_Point(i,j),4326), j*0.05)  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 20) As j
			ORDER BY i, i*j, j)</pgis:gset>
		<pgis:gset ID='PointMSet' GeometryType='POINTM'>(SELECT ST_SetSRID(ST_MakePointM(i,j,m),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 20) AS j
			CROSS JOIN generate_series(1,2) As m
			ORDER BY i, j, i*j*m)</pgis:gset>
		<pgis:gset ID='LineMSet' GeometryType='LINESTRINGM'>(SELECT ST_MakeLine(ST_SetSRID(ST_MakePointM(i,j,m),4326),ST_SetSRID(ST_MakePointM(j,i,m),4326))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 20) As j
			CROSS JOIN generate_series(1,2) As m
			WHERE NOT(i = j)
			ORDER BY i, j, m, i*j*m)</pgis:gset>
		<pgis:gset ID='PolygonMSet' GeometryType='POLYGONM'>(SELECT ST_MakePolygon(ST_AddPoint(ST_AddPoint(ST_MakeLine(ST_SetSRID(ST_MakePointM(i+m,j,m),4326),ST_SetSRID(ST_MakePointM(j+m,i-m,m),4326)),ST_SetSRID(ST_MakePointM(i,j,m),4326)),ST_SetSRID(ST_MakePointM(i+m,j,m),4326)))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 20) As j
			CROSS JOIN generate_series(1,2) As m
			ORDER BY i, j, m, i*j*m
			)</pgis:gset>
		<pgis:gset ID='PointSet3D' GeometryType='POINTZ'>(SELECT ST_SetSRID(ST_MakePoint(i,j,k),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 20) j
			CROSS JOIN generate_series(1,2) k
			ORDER BY i,i*j, j*k, i + j + k)</pgis:gset>
		<pgis:gset ID='LineSet3D' GeometryType='LINESTRINGZ'>(SELECT ST_SetSRID(ST_MakeLine(ST_MakePoint(i,j,k), ST_MakePoint(i+k,j+k,k)),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 20) j
			CROSS JOIN generate_series(1,2) k
			ORDER BY i, j, i+j+k, k, i*j*k)</pgis:gset>
		<pgis:gset ID='PolygonSet3D' GeometryType='POLYGONZ'>(SELECT ST_SetSRID(ST_MakePolygon(ST_AddPoint(ST_AddPoint(ST_MakeLine(ST_MakePoint(i+m,j,m),ST_MakePoint(j+m,i-m,m)),ST_MakePoint(i,j,m)),ST_MakePointM(i+m,j,m))),4326)  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 20) As j
			CROSS JOIN generate_series(1,2) As m
			ORDER BY i, j, i+j+m, m, i*j*m)</pgis:gset>
			
		<pgis:gset ID='PolyhedralSurface' GeometryType='PolyhedralSurface'>(SELECT ST_GeomFromEWKT(
'SRID=0;PolyhedralSurface( 
((0 0 0, 0 0 1, 0 1 1, 0 1 0, 0 0 0)),  
((0 0 0, 0 1 0, 1 1 0, 1 0 0, 0 0 0)), ((0 0 0, 1 0 0, 1 0 1, 0 0 1, 0 0 0)),  ((1 1 0, 1 1 1, 1 0 1, 1 0 0, 1 1 0)),  
((0 1 0, 0 1 1, 1 1 1, 1 1 0, 0 1 0)),  ((0 0 1, 1 0 1, 1 1 1, 0 1 1, 0 0 1)) 
)') )</pgis:gset>

		<pgis:gset ID='GCSet3D' GeometryType='GEOMETRYCOLLECTIONZ' SkipUnary='1'>(SELECT ST_Collect(ST_Collect(ST_SetSRID(ST_MakePoint(i,j,m),4326),ST_SetSRID(ST_MakePolygon(ST_AddPoint(ST_AddPoint(ST_MakeLine(ST_MakePoint(i+m,j,m),ST_MakePoint(j+m,i-m,m)),ST_MakePoint(i,j,m)),ST_MakePointM(i+m,j,m))),4326)))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 20) As j
			CROSS JOIN generate_series(1,2) As m
			)</pgis:gset>

<!-- MULTIs start here -->
		<pgis:gset ID='MultiPointSet' GeometryType='MULTIPOINT'>(SELECT ST_Collect(s.the_geom) As the_geom
		FROM (SELECT ST_SetSRID(ST_Point(i,j),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 15) j
			) As s)</pgis:gset>

		<pgis:gset ID='MultiLineSet' GeometryType='MULTILINESTRING'>(SELECT ST_Collect(s.the_geom) As the_geom
		FROM (SELECT ST_MakeLine(ST_SetSRID(ST_Point(i,j),4326),ST_SetSRID(ST_Point(j,i),4326))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 15) As j
			WHERE NOT(i = j)) As s)</pgis:gset>

		<pgis:gset ID='MultiPolySet' GeometryType='MULTIPOLYGON'>(SELECT ST_Multi(ST_Union(ST_Buffer(ST_SetSRID(ST_Point(i,j),4326), j*0.05)))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 25) As j)</pgis:gset>

		<pgis:gset ID='MultiPointSet3D' GeometryType='MULTIPOINTZ'>(SELECT ST_Collect(ST_SetSRID(ST_MakePoint(i,j,k),4326)) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 25) j
			CROSS JOIN generate_series(1,3) k
			)</pgis:gset>

		<pgis:gset ID='MultiLineSet3D' GeometryType='MULTILINESTRINGZ'>(SELECT ST_Multi(ST_Union(ST_SetSRID(ST_MakeLine(ST_MakePoint(i,j,k), ST_MakePoint(i+k,j+k,k)),4326))) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(40,70, 25) j
			CROSS JOIN generate_series(1,2) k
			)</pgis:gset>

		<pgis:gset ID='MultiPolySet3D' GeometryType='MULTIPOLYGONZ'>(SELECT ST_Multi(ST_Union(s.the_geom)) As the_geom
		FROM (SELECT ST_MakePolygon(ST_AddPoint(ST_AddPoint(ST_MakeLine(ST_SetSRID(ST_MakePoint(i+m,j,m),4326),ST_SetSRID(ST_MakePoint(j+m,i-m,m),4326)),ST_SetSRID(ST_MakePoint(i,j,m),4326)),ST_SetSRID(ST_MakePoint(i+m,j,m),4326)))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 25) As j
			CROSS JOIN generate_series(1,2) As m
			) As s)</pgis:gset>

		<pgis:gset ID='MultiPointMSet' GeometryType='MULTIPOINTM'>(SELECT ST_Collect(s.the_geom) As the_geom
		FROM (SELECT ST_SetSRID(ST_MakePointM(i,j,m),4326) As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 25) AS j
			CROSS JOIN generate_series(1,2) As m
			) As s)</pgis:gset>

		<pgis:gset ID='MultiLineMSet' GeometryType='MULTILINESTRINGM'>(SELECT ST_Collect(s.the_geom) As the_geom
		FROM (SELECT ST_MakeLine(ST_SetSRID(ST_MakePointM(i,j,m),4326),ST_SetSRID(ST_MakePointM(j,i,m),4326))  As the_geom
		FROM (SELECT a*1.01234567890 FROM generate_series(-10,50,10) As a) As i(i)
			CROSS JOIN generate_series(50,70, 25) As j
			CROSS JOIN generate_series(1,2) As m
			WHERE NOT(i = j)) As s)</pgis:gset>

		<pgis:gset ID='MultiPolygonMSet' GeometryType='MULTIPOLYGONM'>(
			SELECT ST_GeomFromEWKT('SRID=4326;MULTIPOLYGONM(((0 0 2,10 0 1,10 10 -2,0 10 -5,0 0 -5),(5 5 6,7 5 6,7 7 6,5 7 10,5 5 -2)))')  As the_geom
			)</pgis:gset>

		<!--These are special case geometries -->
		<pgis:gset ID="Empty" GeometryType="GEOMETRY" createtable="false">(SELECT ST_GeomFromText('GEOMETRYCOLLECTION EMPTY',4326) As the_geom
			UNION ALL SELECT ST_GeomFromText('POLYGON EMPTY',4326) As the_geom
		)
		</pgis:gset>
		
		<pgis:gset ID="SingleNULL" GeometryType="GEOMETRY" createtable="false">(SELECT CAST(Null As geometry) As the_geom)</pgis:gset>
		<pgis:gset ID="MultipleNULLs" GeometryType="GEOMETRY" createtable="false">(SELECT CAST(Null As geometry) As the_geom FROM generate_series(1,4) As foo)</pgis:gset>


	<!-- TODO: Finish off MULTI list -->
	</pgis:gardens>
	<!--This is just a placeholder to hold geometries that will crash server when hitting against some functions
		We'll fix these crashers in 1.4 -->
	<pgis:gardencrashers>
		<pgis:gset ID='CurvePolySet' GeometryType='CURVEPOLYGON'>(SELECT ST_LineToCurve(ST_Buffer(ST_SetSRID(ST_Point(i,j),4326), j))  As the_geom
				FROM generate_series(-10,50,10) As i
					CROSS JOIN generate_series(40,70, 20) As j
					ORDER BY i, j, i*j)</pgis:gset>
		<pgis:gset ID='CircularStringSet' GeometryType='CIRCULARSTRING'>(SELECT ST_LineToCurve(ST_Boundary(ST_Buffer(ST_SetSRID(ST_Point(i,j),4326), j)))  As the_geom
				FROM generate_series(-10,50,10) As i
					CROSS JOIN generate_series(40,70, 20) As j
					ORDER BY i, j, i*j)</pgis:gset>
	
	</pgis:gardencrashers>

        <!-- We deal only with the reference chapter -->
        <xsl:template match="/">
                <xsl:apply-templates select="/book/chapter[@id='reference']" />
        </xsl:template>

	<xsl:template match='chapter'>
<!-- Start regular function checks excluding operators -->
		<xsl:for-each select="sect1[not(contains(@id,'Operator'))]/refentry">
		<xsl:sort select="@id"/>

			<xsl:for-each select="refsynopsisdiv/funcsynopsis/funcprototype">
<!--Create dummy parameters to be used later -->
				<xsl:variable name='fnfakeparams'><xsl:call-template name="replaceparams"><xsl:with-param name="func" select="." /></xsl:call-template></xsl:variable>
				<xsl:variable name='fnargs'><xsl:call-template name="listparams"><xsl:with-param name="func" select="." /></xsl:call-template></xsl:variable>
				<xsl:variable name='fnname'><xsl:value-of select="funcdef/function"/></xsl:variable>
				<xsl:variable name='fndef'><xsl:value-of select="funcdef"/></xsl:variable>
				<xsl:variable name='numparams'><xsl:value-of select="count(paramdef/parameter)" /></xsl:variable>
				<xsl:variable name='numparamgeoms'><xsl:value-of select="count(paramdef/type[contains(text(),'geometry') or contains(text(),'geography') or contains(text(),'box') or contains(text(), 'bytea')]) + count(paramdef/parameter[contains(text(),'WKT')]) + count(paramdef/parameter[contains(text(),'geomgml')])" /></xsl:variable>
				<xsl:variable name='numparamgeogs'><xsl:value-of select="count(paramdef/type[contains(text(),'geography')] )" /></xsl:variable>
				<!-- For each function prototype generate a test sql statement -->
				<xsl:choose>
<!--Test functions that take no arguments or take no geometries -->
	<xsl:when test="$numparamgeoms = '0' and contains($fninclude,funcdef/function)">SELECT  'Starting <xsl:value-of select="funcdef/function" />(<xsl:value-of select="$fnargs" />)';BEGIN;
SELECT  <xsl:value-of select="funcdef/function" />(<xsl:value-of select="$fnfakeparams" />);
COMMIT;
SELECT  'Ending <xsl:value-of select="funcdef/function" />(<xsl:value-of select="$fnargs" />)';
	</xsl:when>
<!--Start Test aggregate and unary functions -->
<!-- put functions that take only one geometry no need to cross with another geom collection, these are unary geom, aggregates, and so forth -->
	<xsl:when test="$numparamgeoms = '1' and contains($fninclude,funcdef/function)" >
		<xsl:for-each select="document('')//pgis:gardens/pgis:gset">
			<xsl:choose>
			  <xsl:when test="contains(paramdef, 'geometry ')">
			  
	SELECT 'Geometry <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />: Start Testing <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geometry show ewkt rep -->
	SELECT ST_AsEWKT(<xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />))
			  </xsl:when>
			  <xsl:when test="contains(paramdef, 'geography ')">
	SELECT 'Geography <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />: Start Testing <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geometry show astext rep -->
	SELECT ST_AsText(<xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />))
			  </xsl:when>
			  <xsl:otherwise>
	SELECT 'Other <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />: Start Testing <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geometry show ewkt rep -->
	SELECT <xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />)
			  </xsl:otherwise>
			</xsl:choose>
			FROM (<xsl:value-of select="." />) As foo1
			LIMIT 3;
	COMMIT;
	SELECT '<xsl:value-of select="$fnname" /><xsl:text> </xsl:text> <xsl:value-of select="@ID" />: End Testing <xsl:value-of select="@GeometryType" />';
		<xsl:text>

		</xsl:text>
		</xsl:for-each>
	</xsl:when>

<!--Functions more than 1 args not already covered this will cross every geometry type with every other -->
	<xsl:when test="contains($fninclude,funcdef/function)">
		<xsl:for-each select="document('')//pgis:gardens/pgis:gset">
	<!--Store first garden sql geometry from -->
			<xsl:variable name="from1"><xsl:value-of select="." /></xsl:variable>
			<xsl:variable name='geom1type'><xsl:value-of select="@ID"/></xsl:variable>
SELECT '<xsl:value-of select="$fnname" /> <xsl:text> </xsl:text><xsl:value-of select="@ID" />(<xsl:value-of select="$fnargs" />): Start Testing <xsl:value-of select="$geom1type" /> against other types';
				<xsl:for-each select="document('')//pgis:gardens/pgis:gset">
			<xsl:choose>
			  <xsl:when test="$numparamgeogs > '0'">
				SELECT 'Geography <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />(<xsl:value-of select="$fnargs" />): Start Testing <xsl:value-of select="$geom1type" />, <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geography show wkt rep -->
	SELECT <xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />), ST_AsText(foo1.the_geom) As ref1_geom, ST_AsText(foo2.the_geom) As ref2_geom
			  </xsl:when>
			  <xsl:when test="$numparamgeoms > '0'">
				SELECT 'Geometry <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />(<xsl:value-of select="$fnargs" />): Start Testing <xsl:value-of select="$geom1type" />, <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geometry show ewkt rep -->
	SELECT <xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />), ST_AsEWKT(foo1.the_geom) As ref1_geom, ST_AsEWKT(foo2.the_geom) As ref2_geom
			  </xsl:when>
			  <xsl:otherwise>
				SELECT 'Other <xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />(<xsl:value-of select="$fnargs" />): Start Testing <xsl:value-of select="$geom1type" />, <xsl:value-of select="@GeometryType" />';
	BEGIN; <!-- If output is geography show wkt rep -->
	SELECT <xsl:value-of select="$fnname" />(<xsl:value-of select="$fnfakeparams" />)
			  </xsl:otherwise>
			</xsl:choose>
			FROM (<xsl:value-of select="$from1" />) As foo1 CROSS JOIN (<xsl:value-of select="." />) As foo2
			LIMIT 2;
	COMMIT;
	SELECT '<xsl:value-of select="$fnname" />(<xsl:value-of select="$fnargs" />) <xsl:text> </xsl:text> <xsl:value-of select="@ID" />: End Testing <xsl:value-of select="$geom1type" />, <xsl:value-of select="@GeometryType" />';
		<xsl:text>

		</xsl:text>
			</xsl:for-each>
SELECT '<xsl:value-of select="$fnname" /><xsl:text> </xsl:text><xsl:value-of select="@ID" />(<xsl:value-of select="$fnargs" />): End Testing <xsl:value-of select="@GeometryType" /> against other types';
		</xsl:for-each>
		</xsl:when>
	</xsl:choose>
			</xsl:for-each>
		</xsl:for-each>
	</xsl:template>

	<!--macro to replace func args with dummy var args -->
	<xsl:template name="replaceparams">
		<xsl:param name="func" />
		<xsl:for-each select="$func">
			<xsl:for-each select="paramdef">
				<xsl:choose>
					<xsl:when test="contains(parameter, 'matrix') or contains(parameter, 'Matrix')">
						<xsl:value-of select="$var_matrix" />
					</xsl:when>
					<xsl:when test="contains(parameter, 'distance')">
						<xsl:value-of select="$var_distance" />
					</xsl:when>
					<xsl:when test="contains(parameter, 'srid')">
						<xsl:value-of select="$var_srid" />
					</xsl:when>
					<xsl:when test="contains(parameter, 'position')">
						<xsl:value-of select="$var_position" />
					</xsl:when>
					<xsl:when test="contains(parameter, 'NDR')">
						'<xsl:value-of select="$var_NDRXDR" />'
					</xsl:when>
					<xsl:when test="contains(parameter, 'version') and position() = 2">
						<xsl:value-of select="$var_version1" />
					</xsl:when>
					<xsl:when test="(contains(parameter, 'version'))">
						<xsl:value-of select="$var_version2" />
					</xsl:when>
					<xsl:when test="(contains(parameter,'geomgml'))">
						<xsl:text>ST_AsGML(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="(contains(type,'box') or type = 'geometry' or type = 'geometry ' or contains(type,'geometry set')) and (position() = 1 or count($func/paramdef/type[contains(text(),'geometry') or contains(text(),'box') or contains(text(), 'WKT') or contains(text(), 'bytea')]) = '1')">
						<xsl:text>foo1.the_geom</xsl:text>
					</xsl:when>
					<xsl:when test="(type = 'geography' or type = 'geography ' or contains(type,'geography set')) and (position() = 1 or count($func/paramdef/type[contains(text(),'geography')]) = '1' )">
						<xsl:text>geography(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(type,'box') or type = 'geometry' or type = 'geometry '">
						<xsl:text>foo2.the_geom</xsl:text>
					</xsl:when>
					<xsl:when test="type = 'geography' or type = 'geography '">
						<xsl:text>geography(foo2.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(type, 'geometry[]') and count($func/paramdef/type[contains(text(),'geometry') or contains(text(),'box') or contains(text(), 'WKT') or contains(text(), 'bytea')]) = '1'">
						ARRAY[foo1.the_geom]
					</xsl:when>
					<xsl:when test="contains(type, 'geometry[]')">
						ARRAY[foo2.the_geom]
					</xsl:when>
					<xsl:when test="contains(parameter, 'EWKT')">
						<xsl:text>ST_AsEWKT(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(parameter, 'WKT')">
						<xsl:text>ST_AsText(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(parameter, 'EWKB')">
						<xsl:text>ST_AsEWKB(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(type, 'bytea')">
						<xsl:text>ST_AsBinary(foo1.the_geom)</xsl:text>
					</xsl:when>
					<xsl:when test="contains(type, 'float') or contains(type, 'double')">
						<xsl:value-of select="$var_float1" />
					</xsl:when>
					<xsl:when test="contains(type, 'spheroid')">
						<xsl:value-of select="$var_spheroid" />
					</xsl:when>
					<xsl:when test="contains(type, 'integer') and position() = 2">
						<xsl:value-of select="$var_integer1" />
					</xsl:when>
					<xsl:when test="contains(type, 'integer')">
						<xsl:value-of select="$var_integer2" />
					</xsl:when>
					<xsl:when test="contains(type, 'text')">
						<xsl:value-of select="$var_text" />
					</xsl:when>
					<xsl:when test="contains(type, 'varchar')">
						<xsl:value-of select="$var_varchar" />
					</xsl:when>
					<xsl:when test="contains(type,'timestamp') or type = 'date'">
						<xsl:text>'2009-01-01'</xsl:text>
					</xsl:when>
					<xsl:when test="contains(type,'boolean')">
						<xsl:value-of select="$var_boolean" />
					</xsl:when>
				</xsl:choose>
				<xsl:if test="position()&lt;last()"><xsl:text>, </xsl:text></xsl:if>
			</xsl:for-each>
		</xsl:for-each>
	</xsl:template>

	<!--macro to pull out function parameter names so we can provide a pretty arg list prefix for each function -->
	<xsl:template name="listparams">
		<xsl:param name="func" />
		<xsl:for-each select="$func">
			<xsl:if test="count(paramdef/parameter) &gt; 0"> </xsl:if>
			<xsl:for-each select="paramdef">
				<xsl:choose>
					<xsl:when test="count(parameter) &gt; 0">
						<xsl:value-of select="parameter" />
					</xsl:when>
				</xsl:choose>
				<xsl:if test="position()&lt;last()"><xsl:text>, </xsl:text></xsl:if>
			</xsl:for-each>
		</xsl:for-each>
	</xsl:template>
</xsl:stylesheet>