OGRGeometry *OGRGeometryFactory::forceToMultiLineString( OGRGeometry *poGeom )

{
    if( poGeom == NULL )
        return NULL;

/* -------------------------------------------------------------------- */
/*      Check for the case of a geometrycollection that can be          */
/*      promoted to MultiLineString.                                    */
/* -------------------------------------------------------------------- */
    if( wkbFlatten(poGeom->getGeometryType()) == wkbGeometryCollection )
    {
        int iGeom;
        int bAllLines = TRUE;
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeom;

        for( iGeom = 0; iGeom < poGC->getNumGeometries(); iGeom++ )
        {
            if( wkbFlatten(poGC->getGeometryRef(iGeom)->getGeometryType())
                != wkbLineString )
                bAllLines = FALSE;
        }

        if( !bAllLines )
            return poGeom;
        
        OGRMultiLineString *poMP = new OGRMultiLineString();

        while( poGC->getNumGeometries() > 0 )
        {
            poMP->addGeometryDirectly( poGC->getGeometryRef(0) );
            poGC->removeGeometry( 0, FALSE );
        }

        delete poGC;

        return poMP;
    }

    if( wkbFlatten(poGeom->getGeometryType()) != wkbLineString )
        return poGeom;

    OGRMultiLineString *poMP = new OGRMultiLineString();
    poMP->addGeometryDirectly( poGeom );

    return poMP;
}
OGRFeature*
     OGRXPlaneAirwaySegmentLayer::AddFeature(const char* pszAirwaySegmentName,
                                             const char* pszFirstPointName,
                                             const char* pszSecondPointName,
                                             double dfLat1,
                                             double dfLon1,
                                             double dfLat2,
                                             double dfLon2,
                                             int    bIsHigh,
                                             int    nBaseFL,
                                             int    nTopFL)
{
    int nCount = 0;
    OGRFeature* poFeature = new OGRFeature(poFeatureDefn);
    if (fabs(dfLon1 - dfLon2) < 270)
    {
        OGRLineString* lineString = new OGRLineString();
        lineString->addPoint(dfLon1, dfLat1);
        lineString->addPoint(dfLon2, dfLat2);
        poFeature->SetGeometryDirectly( lineString );
    }
    else
    {
        /* Crossing antemeridian */
        OGRMultiLineString* multiLineString = new OGRMultiLineString();
        OGRLineString* lineString1 = new OGRLineString();
        OGRLineString* lineString2 = new OGRLineString();
        double dfLatInt;
        lineString1->addPoint(dfLon1, dfLat1);
        if (dfLon1 < dfLon2)
        {
            dfLatInt = dfLat1 + (dfLat2 - dfLat1) * (-180 - dfLon1) / ((dfLon2 - 360) - dfLon1);
            lineString1->addPoint(-180, dfLatInt);
            lineString2->addPoint(180, dfLatInt);
        }
        else
        {
            dfLatInt = dfLat1 + (dfLat2 - dfLat1) * (180 - dfLon1) / ((dfLon2 + 360) - dfLon1);
            lineString1->addPoint(180, dfLatInt);
            lineString2->addPoint(-180, dfLatInt);
        }
        lineString2->addPoint(dfLon2, dfLat2);
        multiLineString->addGeometryDirectly( lineString1 );
        multiLineString->addGeometryDirectly( lineString2 );
        poFeature->SetGeometryDirectly( multiLineString );
    }
    poFeature->SetField( nCount++, pszAirwaySegmentName );
    poFeature->SetField( nCount++, pszFirstPointName );
    poFeature->SetField( nCount++, pszSecondPointName );
    poFeature->SetField( nCount++, bIsHigh );
    poFeature->SetField( nCount++, nBaseFL );
    poFeature->SetField( nCount++, nTopFL );

    RegisterFeature(poFeature);

    return poFeature;
}
Beispiel #3
0
 OGRMultiLineString* make()
 {
     OGRMultiLineString* poCollection = new OGRMultiLineString();
     
     poCollection->addGeometryDirectly(make<OGRLineString>());
     poCollection->addGeometryDirectly(make<OGRLinearRing>());
     
     return poCollection;
 }
Beispiel #4
0
OGRMultiLineString* OGRMSSQLGeometryParser::ReadMultiLineString(int iShape)
{
    int i;
    OGRMultiLineString* poMultiLineString = new OGRMultiLineString();
    OGRGeometry* poGeom;

    for (i = iShape + 1; i < nNumShapes; i++)
    {
        poGeom = NULL;
        if (ParentOffset(i) == (unsigned int)iShape)
        {
            if  ( ShapeType(i) == ST_LINESTRING )
                poGeom = ReadLineString(i);
        }
        if ( poGeom )
            poMultiLineString->addGeometryDirectly( poGeom );
    }

    return poMultiLineString;
}
Beispiel #5
0
void ILI1Reader::ReadGeom(char **stgeom, OGRwkbGeometryType eType, OGRFeature *feature) {

    char **tokens = NULL;
    const char *firsttok = NULL;
    int end = FALSE;
    int isArc = FALSE;
    OGRLineString *ogrLine = NULL; //current line
    OGRLinearRing *ogrRing = NULL; //current ring
    OGRPolygon *ogrPoly = NULL; //current polygon
    OGRPoint ogrPoint, arcPoint, endPoint; //points for arc interpolation
    OGRMultiLineString *ogrMultiLine = NULL; //current multi line

    //tokens = ["STPT", "1111", "22222"]
    ogrPoint.setX(atof(stgeom[1])); ogrPoint.setY(atof(stgeom[2]));
    ogrLine = (eType == wkbPolygon) ? new OGRLinearRing() : new OGRLineString();
    ogrLine->addPoint(&ogrPoint);

    //Set feature geometry
    if (eType == wkbMultiLineString)
    {
      ogrMultiLine = new OGRMultiLineString();
      feature->SetGeometryDirectly(ogrMultiLine);
    }
    else if (eType == wkbGeometryCollection) //AREA
    {
      if (feature->GetGeometryRef())
        ogrMultiLine = (OGRMultiLineString *)feature->GetGeometryRef();
      else
      {
        ogrMultiLine = new OGRMultiLineString();
        feature->SetGeometryDirectly(ogrMultiLine);
      }
    }
    else if (eType == wkbPolygon)
    {
      if (feature->GetGeometryRef())
      {
        ogrPoly = (OGRPolygon *)feature->GetGeometryRef();
        if (ogrPoly->getNumInteriorRings() > 0)
          ogrRing = ogrPoly->getInteriorRing(ogrPoly->getNumInteriorRings()-1);
        else
          ogrRing = ogrPoly->getExteriorRing();
        if (ogrRing && !ogrRing->get_IsClosed()) ogrLine = ogrRing; //SURFACE polygon spread over multiple OBJECTs
      }
      else
      {
        ogrPoly = new OGRPolygon();
        feature->SetGeometryDirectly(ogrPoly);
      }
    }
    else
    {
      feature->SetGeometryDirectly(ogrLine);
    }

    //Parse geometry
    while (!end && (tokens = ReadParseLine()))
    {
      firsttok = CSLGetField(tokens, 0);
      if (EQUAL(firsttok, "LIPT"))
      {
        if (isArc) {
          endPoint.setX(atof(tokens[1])); endPoint.setY(atof(tokens[2]));
          interpolateArc(ogrLine, &ogrPoint, &arcPoint, &endPoint, arcIncr);
        }
        ogrPoint.setX(atof(tokens[1])); ogrPoint.setY(atof(tokens[2])); isArc = FALSE;
        ogrLine->addPoint(&ogrPoint);
      }
      else if (EQUAL(firsttok, "ARCP"))
      {
        isArc = TRUE;
        arcPoint.setX(atof(tokens[1])); arcPoint.setY(atof(tokens[2]));
      }
      else if (EQUAL(firsttok, "ELIN"))
      {
        if (ogrMultiLine)
        {
          ogrMultiLine->addGeometryDirectly(ogrLine);
        }
        if (ogrPoly && ogrLine != ogrRing)
        {
          ogrPoly->addRingDirectly((OGRLinearRing *)ogrLine);
        }
        end = TRUE;
      }
      else if (EQUAL(firsttok, "EEDG"))
      {
        end = TRUE;
      }
      else if (EQUAL(firsttok, "LATT"))
      {
        //Line Attributes (ignored)
      }
      else if (EQUAL(firsttok, "EFLA"))
      {
        end = TRUE;
      }
      else if (EQUAL(firsttok, "ETAB"))
      {
        end = TRUE;
      }
      else
      {
        CPLDebug( "OGR_ILI", "Unexpected token: %s", firsttok );
      }

      CSLDestroy(tokens);
    }
}
Beispiel #6
0
static OGRGeometry *GML2OGRGeometry_XMLNode( CPLXMLNode *psNode )

{
    const char *pszBaseGeometry = BareGMLElement( psNode->pszValue );

/* -------------------------------------------------------------------- */
/*      Polygon                                                         */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"Polygon") )
    {
        CPLXMLNode *psChild;
        OGRPolygon *poPolygon = new OGRPolygon();
        OGRLinearRing *poRing;

        // Find outer ring.
        psChild = FindBareXMLChild( psNode, "outerBoundaryIs" );
        if( psChild == NULL || psChild->psChild == NULL )
        {
            CPLError( CE_Failure, CPLE_AppDefined, 
                      "Missing outerBoundaryIs property on Polygon." );
            delete poPolygon;
            return NULL;
        }

        // Translate outer ring and add to polygon.
        poRing = (OGRLinearRing *) 
            GML2OGRGeometry_XMLNode( psChild->psChild );
        if( poRing == NULL )
        {
            delete poPolygon;
            return NULL;
        }

        if( !EQUAL(poRing->getGeometryName(),"LINEARRING") )
        {
            CPLError( CE_Failure, CPLE_AppDefined, 
                      "Got %.500s geometry as outerBoundaryIs instead of LINEARRING.",
                      poRing->getGeometryName() );
            delete poPolygon;
            delete poRing;
            return NULL;
        }

        poPolygon->addRingDirectly( poRing );

        // Find all inner rings 
        for( psChild = psNode->psChild; 
             psChild != NULL;
             psChild = psChild->psNext ) 
        {
            if( psChild->eType == CXT_Element
                && EQUAL(BareGMLElement(psChild->pszValue),"innerBoundaryIs") )
            {
                poRing = (OGRLinearRing *) 
                    GML2OGRGeometry_XMLNode( psChild->psChild );
                if( !EQUAL(poRing->getGeometryName(),"LINEARRING") )
                {
                    CPLError( CE_Failure, CPLE_AppDefined, 
                              "Got %.500s geometry as innerBoundaryIs instead of LINEARRING.",
                              poRing->getGeometryName() );
                    delete poPolygon;
                    delete poRing;
                    return NULL;
                }

                poPolygon->addRingDirectly( poRing );
            }
        }

        return poPolygon;
    }

/* -------------------------------------------------------------------- */
/*      LinearRing                                                      */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"LinearRing") )
    {
        OGRLinearRing   *poLinearRing = new OGRLinearRing();
        
        if( !ParseGMLCoordinates( psNode, poLinearRing ) )
        {
            delete poLinearRing;
            return NULL;
        }

        return poLinearRing;
    }

/* -------------------------------------------------------------------- */
/*      LineString                                                      */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"LineString") )
    {
        OGRLineString   *poLine = new OGRLineString();
        
        if( !ParseGMLCoordinates( psNode, poLine ) )
        {
            delete poLine;
            return NULL;
        }

        return poLine;
    }

/* -------------------------------------------------------------------- */
/*      PointType                                                       */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"PointType") 
        || EQUAL(pszBaseGeometry,"Point") )
    {
        OGRPoint *poPoint = new OGRPoint();
        
        if( !ParseGMLCoordinates( psNode, poPoint ) )
        {
            delete poPoint;
            return NULL;
        }

        return poPoint;
    }

/* -------------------------------------------------------------------- */
/*      Box                                                             */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"BoxType") || EQUAL(pszBaseGeometry,"Box") )
    {
        OGRLineString  oPoints;

        if( !ParseGMLCoordinates( psNode, &oPoints ) )
            return NULL;

        if( oPoints.getNumPoints() < 2 )
            return NULL;

        OGRLinearRing *poBoxRing = new OGRLinearRing();
        OGRPolygon *poBoxPoly = new OGRPolygon();

        poBoxRing->setNumPoints( 5 );
        poBoxRing->setPoint( 
            0, oPoints.getX(0), oPoints.getY(0), oPoints.getZ(0) );
        poBoxRing->setPoint( 
            1, oPoints.getX(1), oPoints.getY(0), oPoints.getZ(0) );
        poBoxRing->setPoint( 
            2, oPoints.getX(1), oPoints.getY(1), oPoints.getZ(1) );
        poBoxRing->setPoint( 
            3, oPoints.getX(0), oPoints.getY(1), oPoints.getZ(0) );
        poBoxRing->setPoint( 
            4, oPoints.getX(0), oPoints.getY(0), oPoints.getZ(0) );

        poBoxPoly->addRingDirectly( poBoxRing );

        return poBoxPoly;
    }

/* -------------------------------------------------------------------- */
/*      MultiPolygon                                                    */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"MultiPolygon") )
    {
        CPLXMLNode *psChild;
        OGRMultiPolygon *poMPoly = new OGRMultiPolygon();

        // Find all inner rings 
        for( psChild = psNode->psChild; 
             psChild != NULL;
             psChild = psChild->psNext ) 
        {
            if( psChild->eType == CXT_Element
                && EQUAL(BareGMLElement(psChild->pszValue),"polygonMember") )
            {
                OGRPolygon *poPolygon;

                poPolygon = (OGRPolygon *) 
                    GML2OGRGeometry_XMLNode( psChild->psChild );

                if( poPolygon == NULL )
                {
                    delete poMPoly;
                    return NULL;
                }

                if( !EQUAL(poPolygon->getGeometryName(),"POLYGON") )
                {
                    CPLError( CE_Failure, CPLE_AppDefined, 
                              "Got %.500s geometry as polygonMember instead of MULTIPOLYGON.",
                              poPolygon->getGeometryName() );
                    delete poPolygon;
                    delete poMPoly;
                    return NULL;
                }

                poMPoly->addGeometryDirectly( poPolygon );
            }
        }

        return poMPoly;
    }

/* -------------------------------------------------------------------- */
/*      MultiPoint                                                      */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"MultiPoint") )
    {
        CPLXMLNode *psChild;
        OGRMultiPoint *poMP = new OGRMultiPoint();

        // collect points.
        for( psChild = psNode->psChild; 
             psChild != NULL;
             psChild = psChild->psNext ) 
        {
            if( psChild->eType == CXT_Element
                && EQUAL(BareGMLElement(psChild->pszValue),"pointMember") )
            {
                OGRPoint *poPoint;

                poPoint = (OGRPoint *) 
                    GML2OGRGeometry_XMLNode( psChild->psChild );
                if( poPoint == NULL 
                    || wkbFlatten(poPoint->getGeometryType()) != wkbPoint )
                {
                    CPLError( CE_Failure, CPLE_AppDefined, 
                              "Got %.500s geometry as pointMember instead of MULTIPOINT",
                              poPoint ? poPoint->getGeometryName() : "NULL" );
                    delete poPoint;
                    delete poMP;
                    return NULL;
                }

                poMP->addGeometryDirectly( poPoint );
            }
        }

        return poMP;
    }

/* -------------------------------------------------------------------- */
/*      MultiLineString                                                 */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"MultiLineString") )
    {
        CPLXMLNode *psChild;
        OGRMultiLineString *poMP = new OGRMultiLineString();

        // collect lines
        for( psChild = psNode->psChild; 
             psChild != NULL;
             psChild = psChild->psNext ) 
        {
            if( psChild->eType == CXT_Element
                && EQUAL(BareGMLElement(psChild->pszValue),"lineStringMember") )
            {
                OGRGeometry *poGeom;

                poGeom = GML2OGRGeometry_XMLNode( psChild->psChild );
                if( poGeom == NULL 
                    || wkbFlatten(poGeom->getGeometryType()) != wkbLineString )
                {
                    CPLError( CE_Failure, CPLE_AppDefined, 
                              "Got %.500s geometry as Member instead of LINESTRING.",
                              poGeom ? poGeom->getGeometryName() : "NULL" );
                    delete poGeom;
                    delete poMP;
                    return NULL;
                }

                poMP->addGeometryDirectly( poGeom );
            }
        }

        return poMP;
    }

/* -------------------------------------------------------------------- */
/*      GeometryCollection                                              */
/* -------------------------------------------------------------------- */
    if( EQUAL(pszBaseGeometry,"GeometryCollection") )
    {
        CPLXMLNode *psChild;
        OGRGeometryCollection *poGC = new OGRGeometryCollection();

        // collect geoms
        for( psChild = psNode->psChild; 
             psChild != NULL;
             psChild = psChild->psNext ) 
        {
            if( psChild->eType == CXT_Element
                && EQUAL(BareGMLElement(psChild->pszValue),"geometryMember") )
            {
                OGRGeometry *poGeom;

                poGeom = GML2OGRGeometry_XMLNode( psChild->psChild );
                if( poGeom == NULL )
                {
                    CPLError( CE_Failure, CPLE_AppDefined, 
                              "Failed to get geometry in geometryMember" );
                    delete poGeom;
                    delete poGC;
                    return NULL;
                }

                poGC->addGeometryDirectly( poGeom );
            }
        }

        return poGC;
    }

    CPLError( CE_Failure, CPLE_AppDefined, 
              "Unrecognised geometry type <%.500s>.", 
              pszBaseGeometry );

    return NULL;
}
Beispiel #7
0
OGRErr OGRPGeoLayer::createFromShapeBin( GByte *pabyShape, 
                                         OGRGeometry **ppoGeom,
                                         int nBytes )

{
    *ppoGeom = NULL;

    if( nBytes < 1 )
        return OGRERR_FAILURE;

    int nSHPType = pabyShape[0];


//    CPLDebug( "PGeo", 
//              "Shape type read from PGeo data is nSHPType = %d", 
//              nSHPType );

/* -------------------------------------------------------------------- */
/*      type 50 appears to just be an alias for normal line             */
/*      strings. (#1484)                                                */
/*      Type 51 appears to just be an alias for normal polygon. (#3100) */
/*      TODO: These types include additional attributes including       */
/*      non-linear segments and such. They should be handled.           */
/* -------------------------------------------------------------------- */
    switch( nSHPType )
    {
      case 50:
        nSHPType = SHPT_ARC;
        break;
      case 51:
        nSHPType = SHPT_POLYGON;
        break;
      case 52:
        nSHPType = SHPT_POINT;
        break;
      case 53:
        nSHPType = SHPT_MULTIPOINT;
        break;
      case 54:
        nSHPType = SHPT_MULTIPATCH;
    }

/* ==================================================================== */
/*  Extract vertices for a Polygon or Arc.				*/
/* ==================================================================== */
    if(    nSHPType == SHPT_ARC
        || nSHPType == SHPT_ARCZ
        || nSHPType == SHPT_ARCM
        || nSHPType == SHPT_ARCZM
        || nSHPType == SHPT_POLYGON 
        || nSHPType == SHPT_POLYGONZ
        || nSHPType == SHPT_POLYGONM
        || nSHPType == SHPT_POLYGONZM
        || nSHPType == SHPT_MULTIPATCH 
        || nSHPType == SHPT_MULTIPATCHM)
    {
        GInt32         nPoints, nParts;
        int            i, nOffset;
        GInt32         *panPartStart;

        if (nBytes < 44)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Corrupted Shape : nBytes=%d, nSHPType=%d", nBytes, nSHPType);
            return OGRERR_FAILURE;
        }

/* -------------------------------------------------------------------- */
/*      Extract part/point count, and build vertex and part arrays      */
/*      to proper size.                                                 */
/* -------------------------------------------------------------------- */
	memcpy( &nPoints, pabyShape + 40, 4 );
	memcpy( &nParts, pabyShape + 36, 4 );

	CPL_LSBPTR32( &nPoints );
	CPL_LSBPTR32( &nParts );

        if (nPoints < 0 || nParts < 0 ||
            nPoints > 50 * 1000 * 1000 || nParts > 10 * 1000 * 1000)
        {
            CPLError(CE_Failure, CPLE_AppDefined, "Corrupted Shape : nPoints=%d, nParts=%d.",
                     nPoints, nParts);
            return OGRERR_FAILURE;
        }

        int bHasZ = (  nSHPType == SHPT_POLYGONZ
                    || nSHPType == SHPT_POLYGONZM
                    || nSHPType == SHPT_ARCZ
                    || nSHPType == SHPT_ARCZM
                    || nSHPType == SHPT_MULTIPATCH 
                    || nSHPType == SHPT_MULTIPATCHM );

        int bIsMultiPatch = ( nSHPType == SHPT_MULTIPATCH || nSHPType == SHPT_MULTIPATCHM );

        /* With the previous checks on nPoints and nParts, */
        /* we should not overflow here and after */
        /* since 50 M * (16 + 8 + 8) = 1 600 MB */
        int nRequiredSize = 44 + 4 * nParts + 16 * nPoints;
        if ( bHasZ )
        {
            nRequiredSize += 16 + 8 * nPoints;
        }
        if( bIsMultiPatch )
        {
            nRequiredSize += 4 * nParts;
        }
        if (nRequiredSize > nBytes)
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Corrupted Shape : nPoints=%d, nParts=%d, nBytes=%d, nSHPType=%d",
                     nPoints, nParts, nBytes, nSHPType);
            return OGRERR_FAILURE;
        }

        panPartStart = (GInt32 *) VSICalloc(nParts,sizeof(GInt32));
        if (panPartStart == NULL)
        {
            CPLError(CE_Failure, CPLE_OutOfMemory,
                     "Not enough memory for shape (nPoints=%d, nParts=%d)", nPoints, nParts);
            return OGRERR_FAILURE;
        }

/* -------------------------------------------------------------------- */
/*      Copy out the part array from the record.                        */
/* -------------------------------------------------------------------- */
	memcpy( panPartStart, pabyShape + 44, 4 * nParts );
	for( i = 0; i < nParts; i++ )
	{
            CPL_LSBPTR32( panPartStart + i );

            /* We check that the offset is inside the vertex array */
            if (panPartStart[i] < 0 ||
                panPartStart[i] >= nPoints)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Corrupted Shape : panPartStart[%d] = %d, nPoints = %d",
                         i, panPartStart[i], nPoints); 
                CPLFree(panPartStart);
                return OGRERR_FAILURE;
            }
            if (i > 0 && panPartStart[i] <= panPartStart[i-1])
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Corrupted Shape : panPartStart[%d] = %d, panPartStart[%d] = %d",
                         i, panPartStart[i], i - 1, panPartStart[i - 1]); 
                CPLFree(panPartStart);
                return OGRERR_FAILURE;
            }
	}

	nOffset = 44 + 4*nParts;

/* -------------------------------------------------------------------- */
/*      If this is a multipatch, we will also have parts types.  For    */
/*      now we ignore and skip past them.                               */
/* -------------------------------------------------------------------- */
        if( bIsMultiPatch )
            nOffset += 4*nParts;
        
/* -------------------------------------------------------------------- */
/*      Copy out the vertices from the record.                          */
/* -------------------------------------------------------------------- */
        double *padfX = (double *) VSIMalloc(sizeof(double)*nPoints);
        double *padfY = (double *) VSIMalloc(sizeof(double)*nPoints);
        double *padfZ = (double *) VSICalloc(sizeof(double),nPoints);
        if (padfX == NULL || padfY == NULL || padfZ == NULL)
        {
            CPLFree( panPartStart );
            CPLFree( padfX );
            CPLFree( padfY );
            CPLFree( padfZ );
            CPLError(CE_Failure, CPLE_OutOfMemory,
                     "Not enough memory for shape (nPoints=%d, nParts=%d)", nPoints, nParts);
            return OGRERR_FAILURE;
        }

	for( i = 0; i < nPoints; i++ )
	{
	    memcpy(padfX + i, pabyShape + nOffset + i * 16, 8 );
	    memcpy(padfY + i, pabyShape + nOffset + i * 16 + 8, 8 );
            CPL_LSBPTR64( padfX + i );
            CPL_LSBPTR64( padfY + i );
	}

        nOffset += 16*nPoints;
        
/* -------------------------------------------------------------------- */
/*      If we have a Z coordinate, collect that now.                    */
/* -------------------------------------------------------------------- */
        if( bHasZ )
        {
            for( i = 0; i < nPoints; i++ )
            {
                memcpy( padfZ + i, pabyShape + nOffset + 16 + i*8, 8 );
                CPL_LSBPTR64( padfZ + i );
            }

            nOffset += 16 + 8*nPoints;
        }

/* -------------------------------------------------------------------- */
/*      Build corresponding OGR objects.                                */
/* -------------------------------------------------------------------- */
        if(    nSHPType == SHPT_ARC 
            || nSHPType == SHPT_ARCZ
            || nSHPType == SHPT_ARCM
            || nSHPType == SHPT_ARCZM )
        {
/* -------------------------------------------------------------------- */
/*      Arc - As LineString                                             */
/* -------------------------------------------------------------------- */
            if( nParts == 1 )
            {
                OGRLineString *poLine = new OGRLineString();
                *ppoGeom = poLine;

                poLine->setPoints( nPoints, padfX, padfY, padfZ );
            }

/* -------------------------------------------------------------------- */
/*      Arc - As MultiLineString                                        */
/* -------------------------------------------------------------------- */
            else
            {
                OGRMultiLineString *poMulti = new OGRMultiLineString;
                *ppoGeom = poMulti;

                for( i = 0; i < nParts; i++ )
                {
                    OGRLineString *poLine = new OGRLineString;
                    int nVerticesInThisPart;

                    if( i == nParts-1 )
                        nVerticesInThisPart = nPoints - panPartStart[i];
                    else
                        nVerticesInThisPart = 
                            panPartStart[i+1] - panPartStart[i];

                    poLine->setPoints( nVerticesInThisPart, 
                                       padfX + panPartStart[i], 
                                       padfY + panPartStart[i], 
                                       padfZ + panPartStart[i] );

                    poMulti->addGeometryDirectly( poLine );
                }
            }
        } /* ARC */

/* -------------------------------------------------------------------- */
/*      Polygon                                                         */
/* -------------------------------------------------------------------- */
        else if(    nSHPType == SHPT_POLYGON
                 || nSHPType == SHPT_POLYGONZ
                 || nSHPType == SHPT_POLYGONM
                 || nSHPType == SHPT_POLYGONZM )
        {
            OGRPolygon *poMulti = new OGRPolygon;
            *ppoGeom = poMulti;

            for( i = 0; i < nParts; i++ )
            {
                OGRLinearRing *poRing = new OGRLinearRing;
                int nVerticesInThisPart;

                if( i == nParts-1 )
                    nVerticesInThisPart = nPoints - panPartStart[i];
                else
                    nVerticesInThisPart = 
                        panPartStart[i+1] - panPartStart[i];

                poRing->setPoints( nVerticesInThisPart, 
                                   padfX + panPartStart[i], 
                                   padfY + panPartStart[i], 
                                   padfZ + panPartStart[i] );

                poMulti->addRingDirectly( poRing );
            }
        } /* polygon */

/* -------------------------------------------------------------------- */
/*      Multipatch                                                      */
/* -------------------------------------------------------------------- */
        else if( bIsMultiPatch )
        {
            /* return to this later */
        } 

        CPLFree( panPartStart );
        CPLFree( padfX );
        CPLFree( padfY );
        CPLFree( padfZ );

        if( !bHasZ )
            (*ppoGeom)->setCoordinateDimension( 2 );

        return OGRERR_NONE;
    }

/* ==================================================================== */
/*  Extract vertices for a MultiPoint.					*/
/* ==================================================================== */
    else if(    nSHPType == SHPT_MULTIPOINT
             || nSHPType == SHPT_MULTIPOINTM
             || nSHPType == SHPT_MULTIPOINTZ
             || nSHPType == SHPT_MULTIPOINTZM )
    {
#ifdef notdef
	int32		nPoints;
	int    		i, nOffset;

	memcpy( &nPoints, psSHP->pabyRec + 44, 4 );
	if( bBigEndian ) SwapWord( 4, &nPoints );

	psShape->nVertices = nPoints;
        psShape->padfX = (double *) calloc(nPoints,sizeof(double));
        psShape->padfY = (double *) calloc(nPoints,sizeof(double));
        psShape->padfZ = (double *) calloc(nPoints,sizeof(double));
        psShape->padfM = (double *) calloc(nPoints,sizeof(double));

	for( i = 0; i < nPoints; i++ )
	{
	    memcpy(psShape->padfX+i, psSHP->pabyRec + 48 + 16 * i, 8 );
	    memcpy(psShape->padfY+i, psSHP->pabyRec + 48 + 16 * i + 8, 8 );

	    if( bBigEndian ) SwapWord( 8, psShape->padfX + i );
	    if( bBigEndian ) SwapWord( 8, psShape->padfY + i );
	}

        nOffset = 48 + 16*nPoints;
        
/* -------------------------------------------------------------------- */
/*	Get the X/Y bounds.						*/
/* -------------------------------------------------------------------- */
        memcpy( &(psShape->dfXMin), psSHP->pabyRec + 8 +  4, 8 );
        memcpy( &(psShape->dfYMin), psSHP->pabyRec + 8 + 12, 8 );
        memcpy( &(psShape->dfXMax), psSHP->pabyRec + 8 + 20, 8 );
        memcpy( &(psShape->dfYMax), psSHP->pabyRec + 8 + 28, 8 );

	if( bBigEndian ) SwapWord( 8, &(psShape->dfXMin) );
	if( bBigEndian ) SwapWord( 8, &(psShape->dfYMin) );
	if( bBigEndian ) SwapWord( 8, &(psShape->dfXMax) );
	if( bBigEndian ) SwapWord( 8, &(psShape->dfYMax) );

/* -------------------------------------------------------------------- */
/*      If we have a Z coordinate, collect that now.                    */
/* -------------------------------------------------------------------- */
        if( psShape->nSHPType == SHPT_MULTIPOINTZ || psShape->nSHPType == SHPT_MULTIPOINTZM )
        {
            memcpy( &(psShape->dfZMin), psSHP->pabyRec + nOffset, 8 );
            memcpy( &(psShape->dfZMax), psSHP->pabyRec + nOffset + 8, 8 );
            
            if( bBigEndian ) SwapWord( 8, &(psShape->dfZMin) );
            if( bBigEndian ) SwapWord( 8, &(psShape->dfZMax) );
            
            for( i = 0; i < nPoints; i++ )
            {
                memcpy( psShape->padfZ + i,
                        psSHP->pabyRec + nOffset + 16 + i*8, 8 );
                if( bBigEndian ) SwapWord( 8, psShape->padfZ + i );
            }

            nOffset += 16 + 8*nPoints;
        }

/* -------------------------------------------------------------------- */
/*      If we have a M measure value, then read it now.  We assume      */
/*      that the measure can be present for any shape if the size is    */
/*      big enough, but really it will only occur for the Z shapes      */
/*      (options), and the M shapes.                                    */
/* -------------------------------------------------------------------- */
        if( psSHP->panRecSize[hEntity]+8 >= nOffset + 16 + 8*nPoints )
        {
            memcpy( &(psShape->dfMMin), psSHP->pabyRec + nOffset, 8 );
            memcpy( &(psShape->dfMMax), psSHP->pabyRec + nOffset + 8, 8 );
            
            if( bBigEndian ) SwapWord( 8, &(psShape->dfMMin) );
            if( bBigEndian ) SwapWord( 8, &(psShape->dfMMax) );
            
            for( i = 0; i < nPoints; i++ )
            {
                memcpy( psShape->padfM + i,
                        psSHP->pabyRec + nOffset + 16 + i*8, 8 );
                if( bBigEndian ) SwapWord( 8, psShape->padfM + i );
            }
        }
#endif
    }

/* ==================================================================== */
/*      Extract vertices for a point.                                   */
/* ==================================================================== */
    else if(    nSHPType == SHPT_POINT
             || nSHPType == SHPT_POINTM
             || nSHPType == SHPT_POINTZ
             || nSHPType == SHPT_POINTZM )
    {
        int	nOffset;
        double  dfX, dfY, dfZ = 0;

        int bHasZ = (nSHPType == SHPT_POINTZ || nSHPType == SHPT_POINTZM);

        if (nBytes < 4 + 8 + 8 + ((nSHPType == SHPT_POINTZ) ? 8 : 0))
        {
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Corrupted Shape : nBytes=%d, nSHPType=%d", nBytes, nSHPType);
            return OGRERR_FAILURE;
        }
        
	memcpy( &dfX, pabyShape + 4, 8 );
	memcpy( &dfY, pabyShape + 4 + 8, 8 );

        CPL_LSBPTR64( &dfX );
        CPL_LSBPTR64( &dfY );
        nOffset = 20 + 8;
        
        if( bHasZ )
        {
            memcpy( &dfZ, pabyShape + 4 + 16, 8 );
            CPL_LSBPTR64( &dfZ );
        }

        *ppoGeom = new OGRPoint( dfX, dfY, dfZ );

        if( !bHasZ )
            (*ppoGeom)->setCoordinateDimension( 2 );

        return OGRERR_NONE;
    }

    char* pszHex = CPLBinaryToHex( nBytes, pabyShape );
    CPLDebug( "PGEO", "Unsupported geometry type:%d\nnBytes=%d, hex=%s",
              nSHPType, nBytes, pszHex );
    CPLFree(pszHex);

    return OGRERR_FAILURE;
}