char* GML_GetSRSName(const OGRSpatialReference* poSRS, int bLongSRS, int *pbCoordSwap)
{
*pbCoordSwap = FALSE;
if (poSRS == NULL)
return CPLStrdup("");
const char* pszAuthName = NULL;
const char* pszAuthCode = NULL;
const char* pszTarget = NULL;
if (poSRS->IsProjected())
pszTarget = "PROJCS";
else
pszTarget = "GEOGCS";
char szSrsName[50];
szSrsName[0] = 0;
pszAuthName = poSRS->GetAuthorityName( pszTarget );
if( NULL != pszAuthName )
{
if( EQUAL( pszAuthName, "EPSG" ) )
{
pszAuthCode = poSRS->GetAuthorityCode( pszTarget );
if( NULL != pszAuthCode && strlen(pszAuthCode) < 10 )
{
if (bLongSRS && !(((OGRSpatialReference*)poSRS)->EPSGTreatsAsLatLong() ||
((OGRSpatialReference*)poSRS)->EPSGTreatsAsNorthingEasting()))
{
OGRSpatialReference oSRS;
if (oSRS.importFromEPSGA(atoi(pszAuthCode)) == OGRERR_NONE)
{
if (oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting())
*pbCoordSwap = TRUE;
}
}
if (bLongSRS)
{
sprintf( szSrsName, " srsName=\"urn:ogc:def:crs:%s::%s\"",
pszAuthName, pszAuthCode );
}
else
{
sprintf( szSrsName, " srsName=\"%s:%s\"",
pszAuthName, pszAuthCode );
}
}
}
}
return CPLStrdup(szSrsName);
}
int GML_IsSRSLatLongOrder(const char* pszSRSName)
{
if (pszSRSName == NULL)
return FALSE;
if (strncmp(pszSRSName, "urn:", 4) == 0)
{
if (strstr(pszSRSName, ":4326") != NULL)
{
/* Shortcut ... */
return TRUE;
}
else
{
OGRSpatialReference oSRS;
if (oSRS.importFromURN(pszSRSName) == OGRERR_NONE)
{
if (oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting())
return TRUE;
}
}
}
return FALSE;
}
static int OGR2GML3GeometryAppend( const OGRGeometry *poGeometry,
const OGRSpatialReference* poParentSRS,
char **ppszText, int *pnLength,
int *pnMaxLength,
int bIsSubGeometry,
int bLongSRS,
int bLineStringAsCurve,
const char* pszGMLId,
int nSRSDimensionLocFlags,
int bForceLineStringAsLinearRing )
{
/* -------------------------------------------------------------------- */
/* Check for Spatial Reference System attached to given geometry */
/* -------------------------------------------------------------------- */
// Buffer for srsName, srsDimension and gml:id attributes (srsName="..." gml:id="...")
char szAttributes[256];
int nAttrsLength = 0;
szAttributes[0] = 0;
const OGRSpatialReference* poSRS = NULL;
if (poParentSRS)
poSRS = poParentSRS;
else
poParentSRS = poSRS = poGeometry->getSpatialReference();
int bCoordSwap = FALSE;
if( NULL != poSRS )
{
const char* pszAuthName = NULL;
const char* pszAuthCode = NULL;
const char* pszTarget = NULL;
if (poSRS->IsProjected())
pszTarget = "PROJCS";
else
pszTarget = "GEOGCS";
pszAuthName = poSRS->GetAuthorityName( pszTarget );
if( NULL != pszAuthName )
{
if( EQUAL( pszAuthName, "EPSG" ) )
{
pszAuthCode = poSRS->GetAuthorityCode( pszTarget );
if( NULL != pszAuthCode && strlen(pszAuthCode) < 10 )
{
if (bLongSRS && !(((OGRSpatialReference*)poSRS)->EPSGTreatsAsLatLong() ||
((OGRSpatialReference*)poSRS)->EPSGTreatsAsNorthingEasting()))
{
OGRSpatialReference oSRS;
if (oSRS.importFromEPSGA(atoi(pszAuthCode)) == OGRERR_NONE)
{
if (oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting())
bCoordSwap = TRUE;
}
}
if (!bIsSubGeometry)
{
if (bLongSRS)
{
snprintf( szAttributes, sizeof(szAttributes),
" srsName=\"urn:ogc:def:crs:%s::%s\"",
pszAuthName, pszAuthCode );
}
else
{
snprintf( szAttributes, sizeof(szAttributes),
" srsName=\"%s:%s\"",
pszAuthName, pszAuthCode );
}
nAttrsLength = strlen(szAttributes);
}
}
}
}
}
if( (nSRSDimensionLocFlags & SRSDIM_LOC_GEOMETRY) != 0 &&
wkbHasZ(poGeometry->getGeometryType()) )
{
strcat(szAttributes, " srsDimension=\"3\"");
nAttrsLength = strlen(szAttributes);
nSRSDimensionLocFlags &= ~SRSDIM_LOC_GEOMETRY;
}
if (pszGMLId != NULL && nAttrsLength + 9 + strlen(pszGMLId) + 1 < sizeof(szAttributes))
{
strcat(szAttributes, " gml:id=\"");
strcat(szAttributes, pszGMLId);
strcat(szAttributes, "\"");
nAttrsLength = strlen(szAttributes);
}
OGRwkbGeometryType eType = poGeometry->getGeometryType();
OGRwkbGeometryType eFType = wkbFlatten(eType);
/* -------------------------------------------------------------------- */
/* 2D Point */
/* -------------------------------------------------------------------- */
if( eType == wkbPoint )
{
char szCoordinate[256];
OGRPoint *poPoint = (OGRPoint *) poGeometry;
if (bCoordSwap)
OGRMakeWktCoordinate( szCoordinate,
poPoint->getY(), poPoint->getX(), 0.0, 2 );
else
OGRMakeWktCoordinate( szCoordinate,
poPoint->getX(), poPoint->getY(), 0.0, 2 );
_GrowBuffer( *pnLength + strlen(szCoordinate) + 60 + nAttrsLength,
ppszText, pnMaxLength );
sprintf( *ppszText + *pnLength,
"<gml:Point%s><gml:pos>%s</gml:pos></gml:Point>",
szAttributes, szCoordinate );
*pnLength += strlen( *ppszText + *pnLength );
}
/* -------------------------------------------------------------------- */
/* 3D Point */
/* -------------------------------------------------------------------- */
else if( eType == wkbPoint25D )
{
char szCoordinate[256];
OGRPoint *poPoint = (OGRPoint *) poGeometry;
if (bCoordSwap)
OGRMakeWktCoordinate( szCoordinate,
poPoint->getY(), poPoint->getX(), poPoint->getZ(), 3 );
else
OGRMakeWktCoordinate( szCoordinate,
poPoint->getX(), poPoint->getY(), poPoint->getZ(), 3 );
_GrowBuffer( *pnLength + strlen(szCoordinate) + 70 + nAttrsLength,
ppszText, pnMaxLength );
sprintf( *ppszText + *pnLength,
"<gml:Point%s><gml:pos>%s</gml:pos></gml:Point>",
szAttributes, szCoordinate );
*pnLength += strlen( *ppszText + *pnLength );
}
/* -------------------------------------------------------------------- */
/* LineString and LinearRing */
/* -------------------------------------------------------------------- */
else if( eFType == wkbLineString )
{
int bRing = EQUAL(poGeometry->getGeometryName(),"LINEARRING") ||
bForceLineStringAsLinearRing;
if (!bRing && bLineStringAsCurve)
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:Curve" );
AppendString( ppszText, pnLength, pnMaxLength,
szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
"><gml:segments><gml:LineStringSegment>" );
AppendGML3CoordinateList( (OGRLineString *) poGeometry, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LineStringSegment></gml:segments></gml:Curve>" );
}
else
{
// Buffer for tag name + srsName attribute if set
const size_t nLineTagLength = 16;
char* pszLineTagName = NULL;
pszLineTagName = (char *) CPLMalloc( nLineTagLength + nAttrsLength + 1 );
if( bRing )
{
/* LinearRing isn't supposed to have srsName attribute according to GML3 SF-0 */
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:LinearRing>" );
}
else
{
sprintf( pszLineTagName, "<gml:LineString%s>", szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
pszLineTagName );
}
// FREE TAG BUFFER
CPLFree( pszLineTagName );
AppendGML3CoordinateList( (OGRLineString *) poGeometry, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
if( bRing )
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LinearRing>" );
else
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LineString>" );
}
}
/* -------------------------------------------------------------------- */
/* ArcString or Circle */
/* -------------------------------------------------------------------- */
else if( eFType == wkbCircularString )
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:Curve" );
AppendString( ppszText, pnLength, pnMaxLength,
szAttributes );
OGRSimpleCurve* poSC = (OGRSimpleCurve *) poGeometry;
/* SQL MM has a unique type for arc and circle, GML not */
if( poSC->getNumPoints() == 3 &&
poSC->getX(0) == poSC->getX(2) &&
poSC->getY(0) == poSC->getY(2) )
{
double dfMidX = (poSC->getX(0) + poSC->getX(1)) / 2;
double dfMidY = (poSC->getY(0) + poSC->getY(1)) / 2;
double dfDirX = (poSC->getX(1) - poSC->getX(0)) / 2;
double dfDirY = (poSC->getY(1) - poSC->getY(0)) / 2;
double dfNormX = -dfDirY;
double dfNormY = dfDirX;
double dfNewX = dfMidX + dfNormX;
double dfNewY = dfMidY + dfNormY;
OGRLineString* poLS = new OGRLineString();
OGRPoint p;
poSC->getPoint(0, &p);
poLS->addPoint(&p);
poSC->getPoint(1, &p);
if( poSC->getCoordinateDimension() == 3 )
poLS->addPoint(dfNewX, dfNewY, p.getZ());
else
poLS->addPoint(dfNewX, dfNewY);
poLS->addPoint(&p);
AppendString( ppszText, pnLength, pnMaxLength,
"><gml:segments><gml:Circle>" );
AppendGML3CoordinateList( poLS, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:Circle></gml:segments></gml:Curve>" );
delete poLS;
}
else
{
AppendString( ppszText, pnLength, pnMaxLength,
"><gml:segments><gml:ArcString>" );
AppendGML3CoordinateList( poSC, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:ArcString></gml:segments></gml:Curve>" );
}
}
/* -------------------------------------------------------------------- */
/* CompositeCurve */
/* -------------------------------------------------------------------- */
else if( eFType == wkbCompoundCurve )
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:CompositeCurve" );
AppendString( ppszText, pnLength, pnMaxLength,
szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,">");
OGRCompoundCurve* poCC = (OGRCompoundCurve*)poGeometry;
for(int i=0;i<poCC->getNumCurves();i++)
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:curveMember>" );
if( !OGR2GML3GeometryAppend( poCC->getCurve(i), poSRS, ppszText, pnLength,
pnMaxLength, TRUE, bLongSRS,
bLineStringAsCurve,
NULL, nSRSDimensionLocFlags, FALSE) )
return FALSE;
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:curveMember>" );
}
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:CompositeCurve>" );
}
/* -------------------------------------------------------------------- */
/* Polygon */
/* -------------------------------------------------------------------- */
else if( eFType == wkbPolygon || eFType == wkbCurvePolygon )
{
OGRCurvePolygon *poCP = (OGRCurvePolygon *) poGeometry;
// Buffer for polygon tag name + srsName attribute if set
const size_t nPolyTagLength = 13;
char* pszPolyTagName = NULL;
pszPolyTagName = (char *) CPLMalloc( nPolyTagLength + nAttrsLength + 1 );
// Compose Polygon tag with or without srsName attribute
sprintf( pszPolyTagName, "<gml:Polygon%s>", szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
pszPolyTagName );
// FREE TAG BUFFER
CPLFree( pszPolyTagName );
// Don't add srsName to polygon rings
if( poCP->getExteriorRingCurve() != NULL )
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:exterior>" );
if( !OGR2GML3GeometryAppend( poCP->getExteriorRingCurve(), poSRS,
ppszText, pnLength, pnMaxLength,
TRUE, bLongSRS, bLineStringAsCurve,
NULL, nSRSDimensionLocFlags, TRUE) )
{
return FALSE;
}
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:exterior>" );
}
for( int iRing = 0; iRing < poCP->getNumInteriorRings(); iRing++ )
{
OGRCurve *poRing = poCP->getInteriorRingCurve(iRing);
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:interior>" );
if( !OGR2GML3GeometryAppend( poRing, poSRS, ppszText, pnLength,
pnMaxLength, TRUE, bLongSRS,
bLineStringAsCurve,
NULL, nSRSDimensionLocFlags, TRUE) )
return FALSE;
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:interior>" );
}
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:Polygon>" );
}
/* -------------------------------------------------------------------- */
/* MultiSurface, MultiCurve, MultiPoint, MultiGeometry */
/* -------------------------------------------------------------------- */
else if( eFType == wkbMultiPolygon
|| eFType == wkbMultiSurface
|| eFType == wkbMultiLineString
|| eFType == wkbMultiCurve
|| eFType == wkbMultiPoint
|| eFType == wkbGeometryCollection )
{
OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
int iMember;
const char *pszElemClose = NULL;
const char *pszMemberElem = NULL;
// Buffer for opening tag + srsName attribute
char* pszElemOpen = NULL;
if( eFType == wkbMultiPolygon || eFType == wkbMultiSurface )
{
pszElemOpen = (char *) CPLMalloc( 13 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiSurface%s>", szAttributes );
pszElemClose = "MultiSurface>";
pszMemberElem = "surfaceMember>";
}
else if( eFType == wkbMultiLineString || eFType == wkbMultiCurve )
{
pszElemOpen = (char *) CPLMalloc( 16 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiCurve%s>", szAttributes );
pszElemClose = "MultiCurve>";
pszMemberElem = "curveMember>";
}
else if( eFType == wkbMultiPoint )
{
pszElemOpen = (char *) CPLMalloc( 11 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiPoint%s>", szAttributes );
pszElemClose = "MultiPoint>";
pszMemberElem = "pointMember>";
}
else
{
pszElemOpen = (char *) CPLMalloc( 19 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiGeometry%s>", szAttributes );
pszElemClose = "MultiGeometry>";
pszMemberElem = "geometryMember>";
}
AppendString( ppszText, pnLength, pnMaxLength, "<gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszElemOpen );
for( iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
{
OGRGeometry *poMember = poGC->getGeometryRef( iMember );
AppendString( ppszText, pnLength, pnMaxLength, "<gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszMemberElem );
char* pszGMLIdSub = NULL;
if (pszGMLId != NULL)
pszGMLIdSub = CPLStrdup(CPLSPrintf("%s.%d", pszGMLId, iMember));
if( !OGR2GML3GeometryAppend( poMember, poSRS,
ppszText, pnLength, pnMaxLength,
TRUE, bLongSRS, bLineStringAsCurve,
pszGMLIdSub, nSRSDimensionLocFlags, FALSE ) )
{
CPLFree(pszGMLIdSub);
return FALSE;
}
CPLFree(pszGMLIdSub);
AppendString( ppszText, pnLength, pnMaxLength, "</gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszMemberElem );
}
AppendString( ppszText, pnLength, pnMaxLength, "</gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszElemClose );
// FREE TAG BUFFER
CPLFree( pszElemOpen );
}
else
{
CPLError(CE_Failure, CPLE_NotSupported, "Unsupported geometry type %s",
OGRGeometryTypeToName(eType));
return FALSE;
}
return TRUE;
}
static int WFS_ExprDumpAsOGCFilter(CPLString& osFilter,
const swq_expr_node* poExpr,
int bExpectBinary,
ExprDumpFilterOptions* psOptions)
{
if( poExpr->eNodeType == SNT_COLUMN )
{
if (bExpectBinary)
return FALSE;
/* Special fields not understood by server */
if (EQUAL(poExpr->string_value, "gml_id") ||
EQUAL(poExpr->string_value, "FID") ||
EQUAL(poExpr->string_value, "OGR_GEOMETRY") ||
EQUAL(poExpr->string_value, "OGR_GEOM_WKT") ||
EQUAL(poExpr->string_value, "OGR_GEOM_AREA") ||
EQUAL(poExpr->string_value, "OGR_STYLE"))
{
CPLDebug("WFS", "Attribute refers to a OGR special field. Cannot use server-side filtering");
return FALSE;
}
const char* pszFieldname = NULL;
int nIndex;
int bSameTable = psOptions->poFDefn != NULL &&
( poExpr->table_name == NULL ||
EQUAL(poExpr->table_name, psOptions->poFDefn->GetName()) );
if( bSameTable )
{
if( (nIndex = psOptions->poFDefn->GetFieldIndex(poExpr->string_value)) >= 0 )
{
pszFieldname = psOptions->poFDefn->GetFieldDefn(nIndex)->GetNameRef();
}
else if( (nIndex = psOptions->poFDefn->GetGeomFieldIndex(poExpr->string_value)) >= 0 )
{
pszFieldname = psOptions->poFDefn->GetGeomFieldDefn(nIndex)->GetNameRef();
}
}
else if( psOptions->poDS != NULL )
{
OGRLayer* poLayer = psOptions->poDS->GetLayerByName(poExpr->table_name);
if( poLayer )
{
OGRFeatureDefn* poFDefn = poLayer->GetLayerDefn();
if( (nIndex = poFDefn->GetFieldIndex(poExpr->string_value)) >= 0 )
{
pszFieldname = CPLSPrintf("%s/%s",
poLayer->GetName(),
poFDefn->GetFieldDefn(nIndex)->GetNameRef());
}
else if( (nIndex = poFDefn->GetGeomFieldIndex(poExpr->string_value)) >= 0 )
{
pszFieldname = CPLSPrintf("%s/%s",
poLayer->GetName(),
poFDefn->GetGeomFieldDefn(nIndex)->GetNameRef());
}
}
}
if( psOptions->poFDefn == NULL && psOptions->poDS == NULL )
pszFieldname = poExpr->string_value;
if( pszFieldname == NULL )
{
if( poExpr->table_name != NULL )
CPLDebug("WFS", "Field \"%s\".\"%s\" unknown. Cannot use server-side filtering",
poExpr->table_name, poExpr->string_value);
else
CPLDebug("WFS", "Field \"%s\" unknown. Cannot use server-side filtering",
poExpr->string_value);
return FALSE;
}
if (psOptions->nVersion >= 200)
osFilter += CPLSPrintf("<%sValueReference>", psOptions->pszNSPrefix);
else
osFilter += CPLSPrintf("<%sPropertyName>", psOptions->pszNSPrefix);
char* pszFieldnameXML = CPLEscapeString(pszFieldname, -1, CPLES_XML);
osFilter += pszFieldnameXML;
CPLFree(pszFieldnameXML);
if (psOptions->nVersion >= 200)
osFilter += CPLSPrintf("</%sValueReference>", psOptions->pszNSPrefix);
else
osFilter += CPLSPrintf("</%sPropertyName>", psOptions->pszNSPrefix);
return TRUE;
}
if( poExpr->eNodeType == SNT_CONSTANT )
{
if (bExpectBinary)
return FALSE;
osFilter += CPLSPrintf("<%sLiteral>", psOptions->pszNSPrefix);
if( !WFS_ExprDumpRawLitteral(osFilter, poExpr) )
return FALSE;
osFilter += CPLSPrintf("</%sLiteral>", psOptions->pszNSPrefix);
return TRUE;
}
if( poExpr->eNodeType != SNT_OPERATION )
return FALSE; /* shouldn't happen */
if( poExpr->nOperation == SWQ_NOT )
{
osFilter += CPLSPrintf("<%sNot>", psOptions->pszNSPrefix);
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[0], TRUE, psOptions))
return FALSE;
osFilter += CPLSPrintf("</%sNot>", psOptions->pszNSPrefix);
return TRUE;
}
if( poExpr->nOperation == SWQ_LIKE )
{
CPLString osVal;
char ch;
char firstCh = 0;
int i;
if (psOptions->nVersion == 100)
osFilter += CPLSPrintf("<%sPropertyIsLike wildCard='*' singleChar='_' escape='!'>", psOptions->pszNSPrefix);
else
osFilter += CPLSPrintf("<%sPropertyIsLike wildCard='*' singleChar='_' escapeChar='!'>", psOptions->pszNSPrefix);
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[0], FALSE, psOptions))
return FALSE;
if (poExpr->papoSubExpr[1]->eNodeType != SNT_CONSTANT &&
poExpr->papoSubExpr[1]->field_type != SWQ_STRING)
return FALSE;
osFilter += CPLSPrintf("<%sLiteral>", psOptions->pszNSPrefix);
/* Escape value according to above special characters */
/* For URL compatibility reason, we remap the OGR SQL '%' wildchard into '*' */
i = 0;
ch = poExpr->papoSubExpr[1]->string_value[i];
if (ch == '\'' || ch == '"')
{
firstCh = ch;
i ++;
}
for(;(ch = poExpr->papoSubExpr[1]->string_value[i]) != '\0';i++)
{
if (ch == '%')
osVal += "*";
else if (ch == '!')
osVal += "!!";
else if (ch == '*')
osVal += "!*";
else if (ch == firstCh && poExpr->papoSubExpr[1]->string_value[i + 1] == 0)
break;
else
{
char ach[2];
ach[0] = ch;
ach[1] = 0;
osVal += ach;
}
}
char* pszXML = CPLEscapeString(osVal, -1, CPLES_XML);
osFilter += pszXML;
CPLFree(pszXML);
osFilter += CPLSPrintf("</%sLiteral>", psOptions->pszNSPrefix);
osFilter += CPLSPrintf("</%sPropertyIsLike>", psOptions->pszNSPrefix);
return TRUE;
}
if( poExpr->nOperation == SWQ_ISNULL )
{
osFilter += CPLSPrintf("<%sPropertyIsNull>", psOptions->pszNSPrefix);
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[0], FALSE, psOptions))
return FALSE;
osFilter += CPLSPrintf("</%sPropertyIsNull>", psOptions->pszNSPrefix);
psOptions->bOutNeedsNullCheck = TRUE;
return TRUE;
}
if( poExpr->nOperation == SWQ_EQ ||
poExpr->nOperation == SWQ_NE ||
poExpr->nOperation == SWQ_LE ||
poExpr->nOperation == SWQ_LT ||
poExpr->nOperation == SWQ_GE ||
poExpr->nOperation == SWQ_GT )
{
int nOperation = poExpr->nOperation;
int bAddClosingNot = FALSE;
if (!psOptions->bPropertyIsNotEqualToSupported && nOperation == SWQ_NE)
{
osFilter += CPLSPrintf("<%sNot>", psOptions->pszNSPrefix);
nOperation = SWQ_EQ;
bAddClosingNot = TRUE;
}
const char* pszName = NULL;
switch(nOperation)
{
case SWQ_EQ: pszName = "PropertyIsEqualTo"; break;
case SWQ_NE: pszName = "PropertyIsNotEqualTo"; break;
case SWQ_LE: pszName = "PropertyIsLessThanOrEqualTo"; break;
case SWQ_LT: pszName = "PropertyIsLessThan"; break;
case SWQ_GE: pszName = "PropertyIsGreaterThanOrEqualTo"; break;
case SWQ_GT: pszName = "PropertyIsGreaterThan"; break;
default: break;
}
osFilter += "<";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[0], FALSE, psOptions))
return FALSE;
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[1], FALSE, psOptions))
return FALSE;
osFilter += "</";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
if (bAddClosingNot)
osFilter += CPLSPrintf("</%sNot>", psOptions->pszNSPrefix);
return TRUE;
}
if( poExpr->nOperation == SWQ_AND ||
poExpr->nOperation == SWQ_OR )
{
const char* pszName = (poExpr->nOperation == SWQ_AND) ? "And" : "Or";
osFilter += "<";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[0], TRUE, psOptions))
return FALSE;
if (!WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[1], TRUE, psOptions))
return FALSE;
osFilter += "</";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
return TRUE;
}
if( poExpr->nOperation == SWQ_CUSTOM_FUNC &&
EQUAL(poExpr->string_value, "ST_MakeEnvelope") )
{
OGRSpatialReference oSRS;
const char* pszSRSName = WFS_ExprGetSRSName( poExpr, 4, psOptions, oSRS );
int bAxisSwap = FALSE;
osFilter += "<gml:Envelope";
if( pszSRSName )
{
osFilter += " srsName=\"";
osFilter += pszSRSName;
osFilter += "\"";
if( oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting() )
bAxisSwap = TRUE;
}
osFilter += ">";
osFilter += "<gml:lowerCorner>";
if (!WFS_ExprDumpRawLitteral(osFilter, poExpr->papoSubExpr[(bAxisSwap) ? 1 : 0]))
return FALSE;
osFilter += " ";
if (!WFS_ExprDumpRawLitteral(osFilter, poExpr->papoSubExpr[(bAxisSwap) ? 0 : 1]))
return FALSE;
osFilter += "</gml:lowerCorner>";
osFilter += "<gml:upperCorner>";
if (!WFS_ExprDumpRawLitteral(osFilter, poExpr->papoSubExpr[(bAxisSwap) ? 3 : 2]))
return FALSE;
osFilter += " ";
if (!WFS_ExprDumpRawLitteral(osFilter, poExpr->papoSubExpr[(bAxisSwap) ? 2 : 3]))
return FALSE;
osFilter += "</gml:upperCorner>";
osFilter += "</gml:Envelope>";
return TRUE;
}
if( poExpr->nOperation == SWQ_CUSTOM_FUNC &&
EQUAL(poExpr->string_value, "ST_GeomFromText") )
{
OGRSpatialReference oSRS;
const char* pszSRSName = WFS_ExprGetSRSName( poExpr, 1, psOptions, oSRS );
OGRGeometry* poGeom = NULL;
char* pszWKT = (char*)poExpr->papoSubExpr[0]->string_value;
OGRGeometryFactory::createFromWkt(&pszWKT, NULL, &poGeom);
char** papszOptions = NULL;
papszOptions = CSLSetNameValue(papszOptions, "FORMAT", "GML3");
if( pszSRSName != NULL )
{
if( oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting() )
{
OGR_SRSNode *poGEOGCS = oSRS.GetAttrNode( "GEOGCS" );
if( poGEOGCS != NULL )
poGEOGCS->StripNodes( "AXIS" );
OGR_SRSNode *poPROJCS = oSRS.GetAttrNode( "PROJCS" );
if (poPROJCS != NULL && oSRS.EPSGTreatsAsNorthingEasting())
poPROJCS->StripNodes( "AXIS" );
}
if( EQUALN(pszSRSName, "urn:ogc:def:crs:EPSG::", strlen("urn:ogc:def:crs:EPSG::")) )
papszOptions = CSLSetNameValue(papszOptions, "GML3_LONGSRS", "YES");
else
papszOptions = CSLSetNameValue(papszOptions, "GML3_LONGSRS", "NO");
poGeom->assignSpatialReference(&oSRS);
}
papszOptions = CSLSetNameValue(papszOptions, "GMLID",
CPLSPrintf("id%d", psOptions->nUniqueGeomGMLId ++));
char* pszGML = OGR_G_ExportToGMLEx( (OGRGeometryH)poGeom, papszOptions );
osFilter += pszGML;
CSLDestroy(papszOptions);
delete poGeom;
CPLFree(pszGML);
return TRUE;
}
if( poExpr->nOperation == SWQ_CUSTOM_FUNC )
{
const char* pszName =
EQUAL(poExpr->string_value, "ST_Equals") ? "Equals" :
EQUAL(poExpr->string_value, "ST_Disjoint") ? "Disjoint" :
EQUAL(poExpr->string_value, "ST_Touches") ? "Touches" :
EQUAL(poExpr->string_value, "ST_Contains") ? "Contains" :
EQUAL(poExpr->string_value, "ST_Intersects") ? "Intersects" :
EQUAL(poExpr->string_value, "ST_Within") ? "Within" :
EQUAL(poExpr->string_value, "ST_Crosses") ? "Crosses" :
EQUAL(poExpr->string_value, "ST_Overlaps") ? "Overlaps" :
EQUAL(poExpr->string_value, "ST_DWithin") ? "DWithin" :
EQUAL(poExpr->string_value, "ST_Beyond") ? "Beyond" :
NULL;
if( pszName == NULL )
return FALSE;
osFilter += "<";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
for(int i=0;i<2;i++)
{
if( i == 1 && poExpr->papoSubExpr[0]->eNodeType == SNT_COLUMN &&
poExpr->papoSubExpr[1]->eNodeType == SNT_OPERATION &&
poExpr->papoSubExpr[1]->nOperation == SWQ_CUSTOM_FUNC &&
(EQUAL(poExpr->papoSubExpr[1]->string_value, "ST_GeomFromText") ||
EQUAL(poExpr->papoSubExpr[1]->string_value, "ST_MakeEnvelope")) )
{
int bSameTable = psOptions->poFDefn != NULL &&
( poExpr->papoSubExpr[0]->table_name == NULL ||
EQUAL(poExpr->papoSubExpr[0]->table_name, psOptions->poFDefn->GetName()) );
if( bSameTable )
{
int nIndex;
if( (nIndex = psOptions->poFDefn->GetGeomFieldIndex(poExpr->papoSubExpr[0]->string_value)) >= 0 )
{
psOptions->poSRS = psOptions->poFDefn->GetGeomFieldDefn(nIndex)->GetSpatialRef();
}
}
else if( psOptions->poDS != NULL )
{
OGRLayer* poLayer = psOptions->poDS->GetLayerByName(poExpr->papoSubExpr[0]->table_name);
if( poLayer )
{
OGRFeatureDefn* poFDefn = poLayer->GetLayerDefn();
int nIndex;
if( (nIndex = poFDefn->GetGeomFieldIndex(poExpr->papoSubExpr[0]->string_value)) >= 0 )
{
psOptions->poSRS = poFDefn->GetGeomFieldDefn(nIndex)->GetSpatialRef();
}
}
}
}
int bRet = WFS_ExprDumpAsOGCFilter(osFilter, poExpr->papoSubExpr[i], FALSE, psOptions);
psOptions->poSRS = NULL;
if( !bRet )
return FALSE;
}
if( poExpr->nSubExprCount > 2 )
{
osFilter += CPLSPrintf("<%sDistance unit=\"m\">", psOptions->pszNSPrefix);
if (!WFS_ExprDumpRawLitteral(osFilter, poExpr->papoSubExpr[2]) )
return FALSE;
osFilter += CPLSPrintf("</%sDistance>", psOptions->pszNSPrefix);
}
osFilter += "</";
osFilter += psOptions->pszNSPrefix;
osFilter += pszName;
osFilter += ">";
return TRUE;
}
return FALSE;
}
static int OGR2GML3GeometryAppend( OGRGeometry *poGeometry,
const OGRSpatialReference* poParentSRS,
char **ppszText, int *pnLength,
int *pnMaxLength,
int bIsSubGeometry,
int bLongSRS,
int bLineStringAsCurve,
const char* pszGMLId,
int nSRSDimensionLocFlags )
{
/* -------------------------------------------------------------------- */
/* Check for Spatial Reference System attached to given geometry */
/* -------------------------------------------------------------------- */
// Buffer for srsName, srsDimension and gml:id attributes (srsName="..." gml:id="...")
char szAttributes[256];
int nAttrsLength = 0;
szAttributes[0] = 0;
const OGRSpatialReference* poSRS = NULL;
if (poParentSRS)
poSRS = poParentSRS;
else
poParentSRS = poSRS = poGeometry->getSpatialReference();
int bCoordSwap = FALSE;
if( NULL != poSRS )
{
const char* pszAuthName = NULL;
const char* pszAuthCode = NULL;
const char* pszTarget = NULL;
if (poSRS->IsProjected())
pszTarget = "PROJCS";
else
pszTarget = "GEOGCS";
pszAuthName = poSRS->GetAuthorityName( pszTarget );
if( NULL != pszAuthName )
{
if( EQUAL( pszAuthName, "EPSG" ) )
{
pszAuthCode = poSRS->GetAuthorityCode( pszTarget );
if( NULL != pszAuthCode && strlen(pszAuthCode) < 10 )
{
if (bLongSRS && !(((OGRSpatialReference*)poSRS)->EPSGTreatsAsLatLong() ||
((OGRSpatialReference*)poSRS)->EPSGTreatsAsNorthingEasting()))
{
OGRSpatialReference oSRS;
if (oSRS.importFromEPSGA(atoi(pszAuthCode)) == OGRERR_NONE)
{
if (oSRS.EPSGTreatsAsLatLong() || oSRS.EPSGTreatsAsNorthingEasting())
bCoordSwap = TRUE;
}
}
if (!bIsSubGeometry)
{
if (bLongSRS)
{
snprintf( szAttributes, sizeof(szAttributes),
" srsName=\"urn:ogc:def:crs:%s::%s\"",
pszAuthName, pszAuthCode );
}
else
{
snprintf( szAttributes, sizeof(szAttributes),
" srsName=\"%s:%s\"",
pszAuthName, pszAuthCode );
}
nAttrsLength = strlen(szAttributes);
}
}
}
}
}
if( (nSRSDimensionLocFlags & SRSDIM_LOC_GEOMETRY) != 0 &&
(poGeometry->getGeometryType() & wkb25DBit) != 0 )
{
strcat(szAttributes, " srsDimension=\"3\"");
nAttrsLength = strlen(szAttributes);
nSRSDimensionLocFlags &= ~SRSDIM_LOC_GEOMETRY;
}
if (pszGMLId != NULL && nAttrsLength + 9 + strlen(pszGMLId) + 1 < sizeof(szAttributes))
{
strcat(szAttributes, " gml:id=\"");
strcat(szAttributes, pszGMLId);
strcat(szAttributes, "\"");
nAttrsLength = strlen(szAttributes);
}
/* -------------------------------------------------------------------- */
/* 2D Point */
/* -------------------------------------------------------------------- */
if( poGeometry->getGeometryType() == wkbPoint )
{
char szCoordinate[256];
OGRPoint *poPoint = (OGRPoint *) poGeometry;
if (bCoordSwap)
OGRMakeWktCoordinate( szCoordinate,
poPoint->getY(), poPoint->getX(), 0.0, 2 );
else
OGRMakeWktCoordinate( szCoordinate,
poPoint->getX(), poPoint->getY(), 0.0, 2 );
_GrowBuffer( *pnLength + strlen(szCoordinate) + 60 + nAttrsLength,
ppszText, pnMaxLength );
sprintf( *ppszText + *pnLength,
"<gml:Point%s><gml:pos>%s</gml:pos></gml:Point>",
szAttributes, szCoordinate );
*pnLength += strlen( *ppszText + *pnLength );
}
/* -------------------------------------------------------------------- */
/* 3D Point */
/* -------------------------------------------------------------------- */
else if( poGeometry->getGeometryType() == wkbPoint25D )
{
char szCoordinate[256];
OGRPoint *poPoint = (OGRPoint *) poGeometry;
if (bCoordSwap)
OGRMakeWktCoordinate( szCoordinate,
poPoint->getY(), poPoint->getX(), poPoint->getZ(), 3 );
else
OGRMakeWktCoordinate( szCoordinate,
poPoint->getX(), poPoint->getY(), poPoint->getZ(), 3 );
_GrowBuffer( *pnLength + strlen(szCoordinate) + 70 + nAttrsLength,
ppszText, pnMaxLength );
sprintf( *ppszText + *pnLength,
"<gml:Point%s><gml:pos>%s</gml:pos></gml:Point>",
szAttributes, szCoordinate );
*pnLength += strlen( *ppszText + *pnLength );
}
/* -------------------------------------------------------------------- */
/* LineString and LinearRing */
/* -------------------------------------------------------------------- */
else if( poGeometry->getGeometryType() == wkbLineString
|| poGeometry->getGeometryType() == wkbLineString25D )
{
int bRing = EQUAL(poGeometry->getGeometryName(),"LINEARRING");
if (!bRing && bLineStringAsCurve)
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:Curve" );
AppendString( ppszText, pnLength, pnMaxLength,
szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
"><gml:segments><gml:LineStringSegment>" );
AppendGML3CoordinateList( (OGRLineString *) poGeometry, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LineStringSegment></gml:segments></gml:Curve>" );
}
else
{
// Buffer for tag name + srsName attribute if set
const size_t nLineTagLength = 16;
char* pszLineTagName = NULL;
pszLineTagName = (char *) CPLMalloc( nLineTagLength + nAttrsLength + 1 );
if( bRing )
{
/* LinearRing isn't supposed to have srsName attribute according to GML3 SF-0 */
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:LinearRing>" );
}
else
{
sprintf( pszLineTagName, "<gml:LineString%s>", szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
pszLineTagName );
}
// FREE TAG BUFFER
CPLFree( pszLineTagName );
AppendGML3CoordinateList( (OGRLineString *) poGeometry, bCoordSwap,
ppszText, pnLength, pnMaxLength, nSRSDimensionLocFlags );
if( bRing )
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LinearRing>" );
else
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:LineString>" );
}
}
/* -------------------------------------------------------------------- */
/* Polygon */
/* -------------------------------------------------------------------- */
else if( poGeometry->getGeometryType() == wkbPolygon
|| poGeometry->getGeometryType() == wkbPolygon25D )
{
OGRPolygon *poPolygon = (OGRPolygon *) poGeometry;
// Buffer for polygon tag name + srsName attribute if set
const size_t nPolyTagLength = 13;
char* pszPolyTagName = NULL;
pszPolyTagName = (char *) CPLMalloc( nPolyTagLength + nAttrsLength + 1 );
// Compose Polygon tag with or without srsName attribute
sprintf( pszPolyTagName, "<gml:Polygon%s>", szAttributes );
AppendString( ppszText, pnLength, pnMaxLength,
pszPolyTagName );
// FREE TAG BUFFER
CPLFree( pszPolyTagName );
// Don't add srsName to polygon rings
if( poPolygon->getExteriorRing() != NULL )
{
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:exterior>" );
if( !OGR2GML3GeometryAppend( poPolygon->getExteriorRing(), poSRS,
ppszText, pnLength, pnMaxLength,
TRUE, bLongSRS, bLineStringAsCurve,
NULL, nSRSDimensionLocFlags) )
{
return FALSE;
}
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:exterior>" );
}
for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
{
OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);
AppendString( ppszText, pnLength, pnMaxLength,
"<gml:interior>" );
if( !OGR2GML3GeometryAppend( poRing, poSRS, ppszText, pnLength,
pnMaxLength, TRUE, bLongSRS,
bLineStringAsCurve,
NULL, nSRSDimensionLocFlags) )
return FALSE;
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:interior>" );
}
AppendString( ppszText, pnLength, pnMaxLength,
"</gml:Polygon>" );
}
/* -------------------------------------------------------------------- */
/* MultiPolygon, MultiLineString, MultiPoint, MultiGeometry */
/* -------------------------------------------------------------------- */
else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon
|| wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString
|| wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint
|| wkbFlatten(poGeometry->getGeometryType()) == wkbGeometryCollection )
{
OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
int iMember;
const char *pszElemClose = NULL;
const char *pszMemberElem = NULL;
// Buffer for opening tag + srsName attribute
char* pszElemOpen = NULL;
if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
{
pszElemOpen = (char *) CPLMalloc( 13 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiSurface%s>", szAttributes );
pszElemClose = "MultiSurface>";
pszMemberElem = "surfaceMember>";
}
else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
{
pszElemOpen = (char *) CPLMalloc( 16 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiCurve%s>", szAttributes );
pszElemClose = "MultiCurve>";
pszMemberElem = "curveMember>";
}
else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
{
pszElemOpen = (char *) CPLMalloc( 11 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiPoint%s>", szAttributes );
pszElemClose = "MultiPoint>";
pszMemberElem = "pointMember>";
}
else
{
pszElemOpen = (char *) CPLMalloc( 19 + nAttrsLength + 1 );
sprintf( pszElemOpen, "MultiGeometry%s>", szAttributes );
pszElemClose = "MultiGeometry>";
pszMemberElem = "geometryMember>";
}
AppendString( ppszText, pnLength, pnMaxLength, "<gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszElemOpen );
for( iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
{
OGRGeometry *poMember = poGC->getGeometryRef( iMember );
AppendString( ppszText, pnLength, pnMaxLength, "<gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszMemberElem );
char* pszGMLIdSub = NULL;
if (pszGMLId != NULL)
pszGMLIdSub = CPLStrdup(CPLSPrintf("%s.%d", pszGMLId, iMember));
if( !OGR2GML3GeometryAppend( poMember, poSRS,
ppszText, pnLength, pnMaxLength,
TRUE, bLongSRS, bLineStringAsCurve,
pszGMLIdSub, nSRSDimensionLocFlags ) )
{
CPLFree(pszGMLIdSub);
return FALSE;
}
CPLFree(pszGMLIdSub);
AppendString( ppszText, pnLength, pnMaxLength, "</gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszMemberElem );
}
AppendString( ppszText, pnLength, pnMaxLength, "</gml:" );
AppendString( ppszText, pnLength, pnMaxLength, pszElemClose );
// FREE TAG BUFFER
CPLFree( pszElemOpen );
}
else
{
return FALSE;
}
return TRUE;
}