OGRGeometry *OGRGeometryFactory::forceToPolygon( OGRGeometry *poGeom )

{
    if( poGeom == NULL )
        return NULL;

    if( wkbFlatten(poGeom->getGeometryType()) != wkbGeometryCollection
        || wkbFlatten(poGeom->getGeometryType()) != wkbMultiPolygon )
        return poGeom;

    // build an aggregated polygon from all the polygon rings in the container.
    OGRPolygon *poPolygon = new OGRPolygon();
    OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeom;
    int iGeom;

    for( iGeom = 0; iGeom < poGC->getNumGeometries(); iGeom++ )
    {
        if( wkbFlatten(poGC->getGeometryRef(iGeom)->getGeometryType()) 
            != wkbPolygon )
            continue;

        OGRPolygon *poOldPoly = (OGRPolygon *) poGC->getGeometryRef(iGeom);
        int   iRing;

        poPolygon->addRing( poOldPoly->getExteriorRing() );

        for( iRing = 0; iRing < poOldPoly->getNumInteriorRings(); iRing++ )
            poPolygon->addRing( poOldPoly->getInteriorRing( iRing ) );
    }
    
    delete poGC;

    return poPolygon;
}
OGRGeometry *OGRGeometryFactory::forceToMultiPolygon( OGRGeometry *poGeom )

{
    if( poGeom == NULL )
        return NULL;

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

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

        if( !bAllPoly )
            return poGeom;
        
        OGRMultiPolygon *poMP = new OGRMultiPolygon();

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

        delete poGC;

        return poMP;
    }

/* -------------------------------------------------------------------- */
/*      Eventually we should try to split the polygon into component    */
/*      island polygons.  But thats alot of work and can be put off.    */
/* -------------------------------------------------------------------- */
    if( wkbFlatten(poGeom->getGeometryType()) != wkbPolygon )
        return poGeom;

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

    return poMP;
}
OGRBoolean OGRGeometryCollection::Equals( OGRGeometry * poOther ) const

{
    if( poOther == this )
        return TRUE;

    if( poOther->getGeometryType() != getGeometryType() )
        return FALSE;

    if ( IsEmpty() && poOther->IsEmpty() )
        return TRUE;

    OGRGeometryCollection *poOGC = (OGRGeometryCollection *) poOther;
    if( getNumGeometries() != poOGC->getNumGeometries() )
        return FALSE;

    // we should eventually test the SRS.

    for( int iGeom = 0; iGeom < nGeomCount; iGeom++ )
    {
        if( !getGeometryRef(iGeom)->Equals(poOGC->getGeometryRef(iGeom)) )
            return FALSE;
    }

    return TRUE;
}
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;
}
Exemple #5
0
OGRMultiPolygon* OGRILI1Layer::Polygonize( OGRGeometryCollection* poLines, bool fix_crossing_lines )
{
    OGRMultiPolygon *poPolygon = new OGRMultiPolygon();

    if (poLines->getNumGeometries() == 0) return poPolygon;

#if defined(HAVE_GEOS)
    GEOSGeom *ahInGeoms = NULL;
    int       i = 0;
    OGRGeometryCollection *poNoncrossingLines = poLines;
    GEOSGeom hResultGeom = NULL;
    OGRGeometry *poMP = NULL;

    if (fix_crossing_lines && poLines->getNumGeometries() > 0)
    {
        CPLDebug( "OGR_ILI", "Fixing crossing lines");
        //A union of the geometry collection with one line fixes invalid geometries
        poNoncrossingLines = (OGRGeometryCollection*)poLines->Union(poLines->getGeometryRef(0));
        CPLDebug( "OGR_ILI", "Fixed lines: %d", poNoncrossingLines->getNumGeometries()-poLines->getNumGeometries());
    }
    
    GEOSContextHandle_t hGEOSCtxt = OGRGeometry::createGEOSContext();

    ahInGeoms = (GEOSGeom *) CPLCalloc(sizeof(void*),poNoncrossingLines->getNumGeometries());
    for( i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
          ahInGeoms[i] = poNoncrossingLines->getGeometryRef(i)->exportToGEOS(hGEOSCtxt);

    hResultGeom = GEOSPolygonize_r( hGEOSCtxt,
                                    ahInGeoms,
                                   poNoncrossingLines->getNumGeometries() );

    for( i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
        GEOSGeom_destroy_r( hGEOSCtxt, ahInGeoms[i] );
    CPLFree( ahInGeoms );
    if (poNoncrossingLines != poLines) delete poNoncrossingLines;

    if( hResultGeom == NULL )
    {
        OGRGeometry::freeGEOSContext( hGEOSCtxt );
        return NULL;
    }

    poMP = OGRGeometryFactory::createFromGEOS( hGEOSCtxt, hResultGeom );

    GEOSGeom_destroy_r( hGEOSCtxt, hResultGeom );
    OGRGeometry::freeGEOSContext( hGEOSCtxt );

    return (OGRMultiPolygon *) poMP;

#endif

    return poPolygon;
}
OGRMultiPolygon* OGRILI1Layer::Polygonize( OGRGeometryCollection* poLines, bool fix_crossing_lines )
{
    OGRMultiPolygon *poPolygon = new OGRMultiPolygon();

    if (poLines->getNumGeometries() == 0) return poPolygon;

#if defined(HAVE_GEOS)
    GEOSGeom *ahInGeoms = NULL;
    int       i = 0;
    OGRGeometryCollection *poNoncrossingLines = poLines;
    GEOSGeom hResultGeom = NULL;
    OGRGeometry *poMP = NULL;

    if (fix_crossing_lines && poLines->getNumGeometries() > 0)
    {
#if (GEOS_VERSION_MAJOR >= 3)
        CPLDebug( "OGR_ILI", "Fixing crossing lines");
        //A union of the geometry collection with one line fixes invalid geometries
        poNoncrossingLines = (OGRGeometryCollection*)poLines->Union(poLines->getGeometryRef(0));
        CPLDebug( "OGR_ILI", "Fixed lines: %d", poNoncrossingLines->getNumGeometries()-poLines->getNumGeometries());
#else
        #warning Interlis 1 AREA cleanup disabled. Needs GEOS >= 3.0
#endif
    }

    ahInGeoms = (GEOSGeom *) CPLCalloc(sizeof(void*),poNoncrossingLines->getNumGeometries());
    for( i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
          ahInGeoms[i] = poNoncrossingLines->getGeometryRef(i)->exportToGEOS();

    hResultGeom = GEOSPolygonize( ahInGeoms,
                                  poNoncrossingLines->getNumGeometries() );

    for( i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
        GEOSGeom_destroy( ahInGeoms[i] );
    CPLFree( ahInGeoms );
    if (poNoncrossingLines != poLines) delete poNoncrossingLines;

    if( hResultGeom == NULL )
        return NULL;

    poMP = OGRGeometryFactory::createFromGEOS( hResultGeom );

    GEOSGeom_destroy( hResultGeom );

    return (OGRMultiPolygon *) poMP;

#endif

    return poPolygon;
}
Exemple #7
0
void Shape::Dispatch(OGRGeometry *geom){
  switch(geom->getGeometryType()){
    case wkbPolygon:
    {
      PlotPolygon((OGRPolygon *)geom);
      break;
    }
    case wkbMultiPolygon:
    {
      OGRGeometryCollection *coll = (OGRGeometryCollection *)geom;
      for(int i = 0; i < coll->getNumGeometries(); i++)
        Dispatch(coll->getGeometryRef(i));
      break;
    }
  }
}
Exemple #8
0
void wxGISSimpleMarkerSymbol::Draw(const wxGISGeometry &Geometry, int nLevel)
{
    if(!Geometry.IsOk() ||!m_pDisplay)
        return;

    OGRwkbGeometryType eGeomType = wkbFlatten(Geometry.GetType());
    if(eGeomType != wkbPoint && eGeomType != wkbMultiPoint)
        return;

    OGREnvelope Env = Geometry.GetEnvelope();
    if(!m_pDisplay->CanDraw(Env))
        return;

    OGRGeometry *pGeom = Geometry;

    if(eGeomType == wkbMultiPoint)
    {
		OGRGeometryCollection* pOGRGeometryCollection = (OGRGeometryCollection*)pGeom;
		for(int i = 0; i < pOGRGeometryCollection->getNumGeometries(); ++i)
			Draw(wxGISGeometry(pOGRGeometryCollection->getGeometryRef(i), false));
        return;
    }

    wxCriticalSectionLocker lock(m_pDisplay->GetLock());

    OGRPoint* pPoint = (OGRPoint*)pGeom;
	if(m_dfOutlineSize)
	{
		if(!m_pDisplay->DrawPointFast(pPoint->getX(), pPoint->getY()))
        {
			return;
        }
        m_pDisplay->SetColor(m_OutlineColor);
		m_pDisplay->SetLineWidth( m_dfSize + m_dfOutlineSize + m_dfOutlineSize);
        m_pDisplay->Stroke();
	}

	if(!m_pDisplay->DrawPointFast(pPoint->getX(), pPoint->getY()))
    {
		return;
    }

    m_pDisplay->SetColor(m_Color);
	m_pDisplay->SetLineWidth( m_dfSize );
    m_pDisplay->SetLineCap(CAIRO_LINE_CAP_ROUND);
    m_pDisplay->Stroke();
}
void GeomDrawBox::draw_geometry(cairo_t *cr, OGRGeometry *geom, double scale, double x, double y, double height)
{
  switch (geom->getGeometryType())
  {
    case wkbPolygon:
      draw_polygon(cr, dynamic_cast<OGRPolygon*>(geom), scale, x, y, height);
      break;
    case wkbMultiPolygon:
      {
        OGRGeometryCollection *geoCollection = dynamic_cast<OGRGeometryCollection*>(geom);
        for (int i = 0; i < geoCollection->getNumGeometries(); ++i)
          draw_geometry(cr, geoCollection->getGeometryRef(i), scale, x, y, height);
      }
      break;
    default:
      log_warning("Can't paint geometry type %s\n", geom->getGeometryName());
      break;
  }
}
Exemple #10
0
OGRConvert::Geometry* OGRConvert::geometry ( OGRGeometry* geometry, OGRCoordinateTransformation *transform, double verticalOffset )
{
  if ( 0x0 != geometry )
  {
    switch ( geometry->getGeometryType() )
    {
    case wkbPoint:
    case wkbPoint25D:
    case wkbLineString:
    case wkbLineString25D:
    case wkbLinearRing:
    case wkbPolygon:
    case wkbPolygon25D:
      return OGRConvert::_geometry ( geometry, transform, verticalOffset );
      break;
    case wkbMultiPoint:
    case wkbMultiPoint25D:
    case wkbMultiLineString:
    case wkbMultiLineString25D:
    case wkbMultiPolygon:
    case wkbMultiPolygon25D:
    case wkbGeometryCollection:
    case wkbGeometryCollection25D:
      {
        OGRGeometryCollection* collection ( static_cast<OGRGeometryCollection*> ( geometry ) );
        Minerva::Core::Data::MultiGeometry::RefPtr multiGeometry ( new Minerva::Core::Data::MultiGeometry );
        for ( int i = 0; i < collection->getNumGeometries(); ++i )
        {
          multiGeometry->addGeometry ( OGRConvert::_geometry ( collection->getGeometryRef ( i ), transform, verticalOffset ) );
        }
        return multiGeometry.release();
      }
      break;
    case wkbNone:
    case wkbUnknown:
      return 0x0;
    }
  }

  return 0x0;
}
Exemple #11
0
void wxGISSimpleLineSymbol::Draw(const wxGISGeometry &Geometry, int nLevel)
{
    if(!Geometry.IsOk() || !m_pDisplay)
        return;

    OGRwkbGeometryType eGeomType = wkbFlatten(Geometry.GetType());
    if(eGeomType != wkbLineString && eGeomType != wkbLinearRing && eGeomType != wkbMultiLineString)
        return;
    OGREnvelope Env = Geometry.GetEnvelope();
    if(!m_pDisplay->CanDraw(Env))
        return;

    wxCriticalSectionLocker lock(m_pDisplay->GetLock());

    OGRGeometry *pGeom = Geometry;
    if (eGeomType == wkbMultiLineString)
    {
		OGRGeometryCollection* pOGRGeometryCollection = (OGRGeometryCollection*)pGeom;
		for(int i = 0; i < pOGRGeometryCollection->getNumGeometries(); ++i)
			Draw(wxGISGeometry(pOGRGeometryCollection->getGeometryRef(i), false));
    }
    else
    {
        OGRLineString* pLine = (OGRLineString*)pGeom;
        int nPointCount = pLine->getNumPoints();
        if (!m_pDisplay->CheckDrawAsPoint(Env, m_dfWidth, false, 0, 0, false))
        {
            if(!DrawPreserved(pLine))
		        return;
            SetStyleToDisplay();
        }
        else
        {
            SetLimitStyleToDisplay();
        }

        m_pDisplay->Stroke();
    }
}
Exemple #12
0
void wxGISSimpleCollectionSymbol::Draw(const wxGISGeometry &Geometry, int nLevel)
{
    if(!Geometry.IsOk() ||!m_pDisplay)
        return;

    if (!Geometry.IsOk())
        return;

    switch (wkbFlatten(Geometry.GetType()))
    {
    case wkbMultiPoint:
    case wkbPoint:
        m_pMarkerSymbol->Draw(Geometry);
        break;
    case wkbMultiPolygon:
    case wkbPolygon:
        m_pFillSymbol->Draw(Geometry);
        break;
    case wkbMultiLineString:
    case wkbLineString:
        m_pLineSymbol->Draw(Geometry);
        break;
    case wkbGeometryCollection:
        {
            OGRGeometryCollection* pOGRGeometryCollection = (OGRGeometryCollection*)Geometry.operator OGRGeometry *();
            for (int i = 0; i < pOGRGeometryCollection->getNumGeometries(); ++i)
            {
                wxGISGeometry CollectionGeom(pOGRGeometryCollection->getGeometryRef(i), false);
                Draw(CollectionGeom, nLevel);
            }
        }
        break;
    case wkbLinearRing:
    case wkbUnknown:
    case wkbNone:
    default:
        break;
    }
}
Exemple #13
0
static int OGR2GMLGeometryAppend( OGRGeometry *poGeometry, 
                                  char **ppszText, int *pnLength, 
                                  int *pnMaxLength,
                                  int bIsSubGeometry )

{

/* -------------------------------------------------------------------- */
/*      Check for Spatial Reference System attached to given geometry   */
/* -------------------------------------------------------------------- */

    // Buffer for srsName attribute (srsName="...")
    char szAttributes[30] = { 0 };
    int nAttrsLength = 0;

    const OGRSpatialReference* poSRS = NULL;
    poSRS = poGeometry->getSpatialReference();

    if( NULL != poSRS && !bIsSubGeometry )
    {
        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 )
                {
                    sprintf( szAttributes, " srsName=\"%s:%s\"",
                            pszAuthName, pszAuthCode );

                    nAttrsLength = strlen(szAttributes);
                }
            }
        }
    }

/* -------------------------------------------------------------------- */
/*      2D Point                                                        */
/* -------------------------------------------------------------------- */
    if( poGeometry->getGeometryType() == wkbPoint )
    {
        char    szCoordinate[256];
        OGRPoint *poPoint = (OGRPoint *) poGeometry;

        MakeGMLCoordinate( szCoordinate, 
                           poPoint->getX(), poPoint->getY(), 0.0, FALSE );

        _GrowBuffer( *pnLength + strlen(szCoordinate) + 60 + nAttrsLength,
                     ppszText, pnMaxLength );

        sprintf( *ppszText + *pnLength, 
                "<gml:Point%s><gml:coordinates>%s</gml:coordinates></gml:Point>",
                 szAttributes, szCoordinate );

        *pnLength += strlen( *ppszText + *pnLength );
    }
/* -------------------------------------------------------------------- */
/*      3D Point                                                        */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPoint25D )
    {
        char    szCoordinate[256];
        OGRPoint *poPoint = (OGRPoint *) poGeometry;

        MakeGMLCoordinate( szCoordinate, 
                           poPoint->getX(), poPoint->getY(), poPoint->getZ(), 
                           TRUE );
                           
        _GrowBuffer( *pnLength + strlen(szCoordinate) + 70 + nAttrsLength,
                     ppszText, pnMaxLength );

        sprintf( *ppszText + *pnLength, 
                "<gml:Point%s><gml:coordinates>%s</gml:coordinates></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");

        // Buffer for tag name + srsName attribute if set
        const size_t nLineTagLength = 16;
        char* pszLineTagName = NULL;
        pszLineTagName = (char *) CPLMalloc( nLineTagLength + nAttrsLength + 1 );

        if( bRing )
        {
            sprintf( pszLineTagName, "<gml:LinearRing%s>", szAttributes );

            AppendString( ppszText, pnLength, pnMaxLength,
                          pszLineTagName );
        }
        else
        {
            sprintf( pszLineTagName, "<gml:LineString%s>", szAttributes );

            AppendString( ppszText, pnLength, pnMaxLength,
                          pszLineTagName );
        }

        // FREE TAG BUFFER
        CPLFree( pszLineTagName );

        AppendCoordinateList( (OGRLineString *) poGeometry, 
                              ppszText, pnLength, pnMaxLength );
        
        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:outerBoundaryIs>" );

            if( !OGR2GMLGeometryAppend( poPolygon->getExteriorRing(), 
                                        ppszText, pnLength, pnMaxLength,
                                        TRUE ) )
            {
                return FALSE;
            }
            
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</gml:outerBoundaryIs>" );
        }

        for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
        {
            OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);

            AppendString( ppszText, pnLength, pnMaxLength,
                          "<gml:innerBoundaryIs>" );
            
            if( !OGR2GMLGeometryAppend( poRing, ppszText, pnLength, 
                                        pnMaxLength, TRUE ) )
                return FALSE;
            
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</gml:innerBoundaryIs>" );
        }

        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, "MultiPolygon%s>", szAttributes );

            pszElemClose = "MultiPolygon>";
            pszMemberElem = "polygonMember>";
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
        {
            pszElemOpen = (char *) CPLMalloc( 16 + nAttrsLength + 1 );
            sprintf( pszElemOpen, "MultiLineString%s>", szAttributes );

            pszElemClose = "MultiLineString>";
            pszMemberElem = "lineStringMember>";
        }
        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 );
            
            if( !OGR2GMLGeometryAppend( poMember, 
                                        ppszText, pnLength, pnMaxLength,
                                        TRUE ) )
            {
                return FALSE;
            }
            
            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;
}
ElementPtr geom2kml (
    OGRGeometry * poOgrGeom,
    int extra,
    KmlFactory * poKmlFactory )
{
    int i;

    if ( !poOgrGeom ) {
        return NULL;
    }

    /***** ogr geom vars *****/

    OGRPoint *poOgrPoint = NULL;
    OGRLineString *poOgrLineString;
    OGRPolygon *poOgrPolygon;
    OGRGeometryCollection *poOgrMultiGeom;

    /***** libkml geom vars *****/

    CoordinatesPtr coordinates;
    PointPtr poKmlPoint;
    LineStringPtr poKmlLineString;
    LinearRingPtr poKmlLinearRing;
    OuterBoundaryIsPtr poKmlOuterRing;
    InnerBoundaryIsPtr poKmlInnerRing;
    PolygonPtr poKmlPolygon;
    MultiGeometryPtr poKmlMultiGeometry;

    ElementPtr poKmlGeometry;
    ElementPtr poKmlTmpGeometry;

    /***** other vars *****/

    double x,
        y,
        z;

    int numpoints = 0;
    int nGeom;
    OGRwkbGeometryType type = poOgrGeom->getGeometryType (  );

    switch ( type ) {

    case wkbPoint:

        poOgrPoint = ( OGRPoint * ) poOgrGeom;
        if (poOgrPoint->getCoordinateDimension() == 0)
        {
            poKmlGeometry = poKmlPoint = poKmlFactory->CreatePoint (  );
        }
        else
        {
            x = poOgrPoint->getX (  );
            y = poOgrPoint->getY (  );

            if ( x > 180 )
                x -= 360;

            coordinates = poKmlFactory->CreateCoordinates (  );
            coordinates->add_latlng ( y, x );
            poKmlGeometry = poKmlPoint = poKmlFactory->CreatePoint (  );
            poKmlPoint->set_coordinates ( coordinates );
        }

        break;

    case wkbPoint25D:
        poOgrPoint = ( OGRPoint * ) poOgrGeom;

        x = poOgrPoint->getX (  );
        y = poOgrPoint->getY (  );
        z = poOgrPoint->getZ (  );

        if ( x > 180 )
            x -= 360;

        coordinates = poKmlFactory->CreateCoordinates (  );
        coordinates->add_latlngalt ( y, x, z );
        poKmlGeometry = poKmlPoint = poKmlFactory->CreatePoint (  );
        poKmlPoint->set_coordinates ( coordinates );

        break;

    case wkbLineString:
        poOgrLineString = ( OGRLineString * ) poOgrGeom;

        if( extra >= 0 )
        {
            ((OGRLinearRing*)poOgrGeom)->closeRings();
        }

        numpoints = poOgrLineString->getNumPoints (  );
        if( extra >= 0 )
        {
            if( numpoints < 4 &&
                CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
            {
                CPLError(CE_Failure, CPLE_NotSupported, "A linearring should have at least 4 points");
                return NULL;
            }
        }
        else
        {
            if( numpoints < 2 &&
                CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
            {
                CPLError(CE_Failure, CPLE_NotSupported, "A linestring should have at least 2 points");
                return NULL;
            }
        }

        coordinates = poKmlFactory->CreateCoordinates (  );

        poOgrPoint = new OGRPoint (  );

        for ( i = 0; i < numpoints; i++ ) {
            poOgrLineString->getPoint ( i, poOgrPoint );

            x = poOgrPoint->getX (  );
            y = poOgrPoint->getY (  );

            if ( x > 180 )
                x -= 360;

            coordinates->add_latlng ( y, x );
        }
        delete poOgrPoint;

        /***** check if its a wkbLinearRing *****/

        if ( extra < 0 ) {

            poKmlGeometry = poKmlLineString =
                poKmlFactory->CreateLineString (  );
            poKmlLineString->set_coordinates ( coordinates );

            break;
        }

      /***** fallthrough *****/

    case wkbLinearRing:        //this case is for readability only

        poKmlLinearRing = poKmlFactory->CreateLinearRing (  );
        poKmlLinearRing->set_coordinates ( coordinates );

        if ( !extra ) {
            poKmlOuterRing = poKmlFactory->CreateOuterBoundaryIs (  );
            poKmlOuterRing->set_linearring ( poKmlLinearRing );
            poKmlGeometry = poKmlOuterRing;
        }
        else {
            poKmlGeometry = poKmlInnerRing =
                poKmlFactory->CreateInnerBoundaryIs (  );
            poKmlInnerRing->set_linearring ( poKmlLinearRing );
        }

        break;

    case wkbLineString25D:

        poOgrLineString = ( OGRLineString * ) poOgrGeom;

        if( extra >= 0 )
        {
            ((OGRLinearRing*)poOgrGeom)->closeRings();
        }

        numpoints = poOgrLineString->getNumPoints (  );
        if( extra >= 0 )
        {
            if( numpoints < 4 &&
                CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
            {
                CPLError(CE_Failure, CPLE_NotSupported, "A linearring should have at least 4 points");
                return NULL;
            }
        }
        else
        {
            if( numpoints < 2 &&
                CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
            {
                CPLError(CE_Failure, CPLE_NotSupported, "A linestring should have at least 2 points");
                return NULL;
            }
        }

        coordinates = poKmlFactory->CreateCoordinates (  );
        poOgrPoint = new OGRPoint (  );

        for ( i = 0; i < numpoints; i++ ) {
            poOgrLineString->getPoint ( i, poOgrPoint );

            x = poOgrPoint->getX (  );
            y = poOgrPoint->getY (  );
            z = poOgrPoint->getZ (  );

            if ( x > 180 )
                x -= 360;

            coordinates->add_latlngalt ( y, x, z );
        }
        delete poOgrPoint;

        /***** check if its a wkbLinearRing *****/

        if ( extra < 0 ) {

            poKmlGeometry = poKmlLineString =
                poKmlFactory->CreateLineString (  );
            poKmlLineString->set_coordinates ( coordinates );

            break;
        }
            /***** fallthrough *****/

        //case wkbLinearRing25D: // this case is for readability only

        poKmlLinearRing = poKmlFactory->CreateLinearRing (  );
        poKmlLinearRing->set_coordinates ( coordinates );

        if ( !extra ) {
            poKmlGeometry = poKmlOuterRing =
                poKmlFactory->CreateOuterBoundaryIs (  );
            poKmlOuterRing->set_linearring ( poKmlLinearRing );
        }
        else {
            poKmlGeometry = poKmlInnerRing =
                poKmlFactory->CreateInnerBoundaryIs (  );
            poKmlInnerRing->set_linearring ( poKmlLinearRing );
        }

        break;

    case wkbPolygon:

        CPLErrorReset();
        if( CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) &&
            OGRGeometryFactory::haveGEOS() && (!poOgrGeom->IsValid() ||
             CPLGetLastErrorType() != CE_None) )
        {
            CPLError(CE_Failure, CPLE_NotSupported, "Invalid polygon");
            return NULL;
        }
        poOgrPolygon = ( OGRPolygon * ) poOgrGeom;

        poKmlGeometry = poKmlPolygon = poKmlFactory->CreatePolygon (  );

        poKmlTmpGeometry = geom2kml ( poOgrPolygon->getExteriorRing (  ),
                                      0, poKmlFactory );
        poKmlPolygon->
            set_outerboundaryis ( AsOuterBoundaryIs ( poKmlTmpGeometry ) );

        nGeom = poOgrPolygon->getNumInteriorRings (  );
        for ( i = 0; i < nGeom; i++ ) {
            poKmlTmpGeometry = geom2kml ( poOgrPolygon->getInteriorRing ( i ),
                                          i + 1, poKmlFactory );
            poKmlPolygon->
                add_innerboundaryis ( AsInnerBoundaryIs ( poKmlTmpGeometry ) );
        }

        break;

    case wkbPolygon25D:

        CPLErrorReset();
        if( CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) &&
            OGRGeometryFactory::haveGEOS() && (!poOgrGeom->IsValid() ||
             CPLGetLastErrorType() != CE_None) )
        {
            CPLError(CE_Failure, CPLE_NotSupported, "Invalid polygon");
            return NULL;
        }
        poOgrPolygon = ( OGRPolygon * ) poOgrGeom;

        poKmlGeometry = poKmlPolygon = poKmlFactory->CreatePolygon (  );

        poKmlTmpGeometry = geom2kml ( poOgrPolygon->getExteriorRing (  ),
                                      0, poKmlFactory );
        poKmlPolygon->
            set_outerboundaryis ( AsOuterBoundaryIs ( poKmlTmpGeometry ) );

        nGeom = poOgrPolygon->getNumInteriorRings (  );
        for ( i = 0; i < nGeom; i++ ) {
            poKmlTmpGeometry = geom2kml ( poOgrPolygon->getInteriorRing ( i ),
                                          i + 1, poKmlFactory );
            poKmlPolygon->
                add_innerboundaryis ( AsInnerBoundaryIs ( poKmlTmpGeometry ) );
        }

        break;

    case wkbMultiPoint:
    case wkbMultiLineString:
    case wkbMultiPolygon:
    case wkbGeometryCollection:
    case wkbMultiPoint25D:
    case wkbMultiLineString25D:
    case wkbMultiPolygon25D:
    case wkbGeometryCollection25D:

        poOgrMultiGeom = ( OGRGeometryCollection * ) poOgrGeom;

        nGeom = poOgrMultiGeom->getNumGeometries (  );

        if( nGeom == 1 &&
            CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
        {
            CPLDebug("LIBKML", "Turning multiple geometry into single geometry");
            poKmlGeometry = geom2kml( poOgrMultiGeom->getGeometryRef ( 0 ),
                                      -1, poKmlFactory );
        }
        else
        {
            if( nGeom == 0 &&
                CPLTestBool(CPLGetConfigOption("LIBKML_STRICT_COMPLIANCE", "TRUE")) )
            {
                CPLError(CE_Warning, CPLE_AppDefined, "Empty multi geometry are not recommended");
            }
            poKmlGeometry = poKmlMultiGeometry =
                poKmlFactory->CreateMultiGeometry (  );
            for ( i = 0; i < nGeom; i++ ) {
                poKmlTmpGeometry = geom2kml ( poOgrMultiGeom->getGeometryRef ( i ),
                                            -1, poKmlFactory );
                poKmlMultiGeometry->
                    add_geometry ( AsGeometry ( poKmlTmpGeometry ) );
            }
        }

        break;

    case wkbUnknown:
    case wkbNone:
    default:
        break;

    }

    return poKmlGeometry;
}
static bool OGR2KMLGeometryAppend( OGRGeometry *poGeometry,
                                   char **ppszText, size_t *pnLength,
                                   size_t *pnMaxLength, char *szAltitudeMode )

{
/* -------------------------------------------------------------------- */
/*      2D Point                                                        */
/* -------------------------------------------------------------------- */
    if( poGeometry->getGeometryType() == wkbPoint )
    {
        OGRPoint* poPoint = static_cast<OGRPoint*>(poGeometry);

        if (poPoint->getCoordinateDimension() == 0)
        {
            _GrowBuffer( *pnLength + 10,
                     ppszText, pnMaxLength );
            strcat( *ppszText + *pnLength, "<Point/>");
            *pnLength += strlen( *ppszText + *pnLength );
        }
        else
        {
            char szCoordinate[256] = { 0 };
            MakeKMLCoordinate( szCoordinate, sizeof(szCoordinate),
                            poPoint->getX(), poPoint->getY(), 0.0, FALSE );

            _GrowBuffer( *pnLength + strlen(szCoordinate) + 60,
                         ppszText, pnMaxLength );

            snprintf( *ppszText + *pnLength, *pnMaxLength - *pnLength,
                      "<Point><coordinates>%s</coordinates></Point>",
                      szCoordinate );

            *pnLength += strlen( *ppszText + *pnLength );
        }
    }
/* -------------------------------------------------------------------- */
/*      3D Point                                                        */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPoint25D )
    {
        char szCoordinate[256] = { 0 };
        OGRPoint *poPoint = static_cast<OGRPoint*>(poGeometry);

        MakeKMLCoordinate( szCoordinate, sizeof(szCoordinate),
                           poPoint->getX(), poPoint->getY(), poPoint->getZ(),
                           true );

        if (NULL == szAltitudeMode)
        {
            _GrowBuffer( *pnLength + strlen(szCoordinate) + 70,
                         ppszText, pnMaxLength );

            snprintf( *ppszText + *pnLength, *pnMaxLength - *pnLength,
                      "<Point><coordinates>%s</coordinates></Point>",
                      szCoordinate );
        }
        else
        {
            _GrowBuffer( *pnLength + strlen(szCoordinate)
                         + strlen(szAltitudeMode) + 70,
                         ppszText, pnMaxLength );

            snprintf( *ppszText + *pnLength, *pnMaxLength - *pnLength,
                      "<Point>%s<coordinates>%s</coordinates></Point>",
                      szAltitudeMode, szCoordinate );
        }

        *pnLength += strlen( *ppszText + *pnLength );
    }
/* -------------------------------------------------------------------- */
/*      LineString and LinearRing                                       */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbLineString
             || poGeometry->getGeometryType() == wkbLineString25D )
    {
        const bool bRing = EQUAL(poGeometry->getGeometryName(),"LINEARRING");

        if( bRing )
            AppendString( ppszText, pnLength, pnMaxLength,
                          "<LinearRing>" );
        else
            AppendString( ppszText, pnLength, pnMaxLength,
                          "<LineString>" );

        if (NULL != szAltitudeMode)
        {
            AppendString( ppszText, pnLength, pnMaxLength, szAltitudeMode);
        }

        AppendCoordinateList( reinterpret_cast<OGRLineString *>(poGeometry),
                              ppszText, pnLength, pnMaxLength );

        if( bRing )
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</LinearRing>" );
        else
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</LineString>" );
    }

/* -------------------------------------------------------------------- */
/*      Polygon                                                         */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPolygon
             || poGeometry->getGeometryType() == wkbPolygon25D )
    {
        OGRPolygon* poPolygon = static_cast<OGRPolygon*>(poGeometry);

        AppendString( ppszText, pnLength, pnMaxLength, "<Polygon>" );

        if (NULL != szAltitudeMode)
        {
            AppendString( ppszText, pnLength, pnMaxLength, szAltitudeMode);
        }

        if( poPolygon->getExteriorRing() != NULL )
        {
            AppendString( ppszText, pnLength, pnMaxLength,
                          "<outerBoundaryIs>" );

            if( !OGR2KMLGeometryAppend( poPolygon->getExteriorRing(),
                                        ppszText, pnLength, pnMaxLength,
                                        szAltitudeMode ) )
            {
                return false;
            }
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</outerBoundaryIs>" );
        }

        for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
        {
            OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);

            AppendString( ppszText, pnLength, pnMaxLength,
                          "<innerBoundaryIs>" );

            if( !OGR2KMLGeometryAppend( poRing, ppszText, pnLength,
                                        pnMaxLength, szAltitudeMode ) )
            {
                return false;
            }
            AppendString( ppszText, pnLength, pnMaxLength,
                          "</innerBoundaryIs>" );
        }

        AppendString( ppszText, pnLength, pnMaxLength,
                      "</Polygon>" );
    }

/* -------------------------------------------------------------------- */
/*      MultiPolygon                                                    */
/* -------------------------------------------------------------------- */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint
             || wkbFlatten(poGeometry->getGeometryType()) ==
                wkbGeometryCollection )
    {
        OGRGeometryCollection* poGC = NULL;
        poGC = static_cast<OGRGeometryCollection*>(poGeometry);

        AppendString( ppszText, pnLength, pnMaxLength, "<MultiGeometry>" );

        // XXX - mloskot
        //if (NULL != szAltitudeMode)
        //{
        //    AppendString( ppszText, pnLength, pnMaxLength, szAltitudeMode);
        //}

        for( int iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
        {
            OGRGeometry *poMember = poGC->getGeometryRef( iMember );

            if( !OGR2KMLGeometryAppend( poMember, ppszText, pnLength,
                                        pnMaxLength, szAltitudeMode ) )
            {
                return false;
            }
        }

        AppendString( ppszText, pnLength, pnMaxLength, "</MultiGeometry>" );
    }
    else
    {
        return false;
    }

    return true;
}
Exemple #16
0
OGRMultiPolygon* OGRILI1Layer::Polygonize( OGRGeometryCollection* poLines, bool fix_crossing_lines )
{
    if (poLines->getNumGeometries() == 0)
    {
        return new OGRMultiPolygon();
    }

#if defined(HAVE_GEOS)
    GEOSGeom *ahInGeoms = NULL;
    OGRGeometryCollection *poNoncrossingLines = poLines;
    GEOSGeom hResultGeom = NULL;
    OGRGeometry *poMP = NULL;

    if (fix_crossing_lines && poLines->getNumGeometries() > 0)
    {
        CPLDebug( "OGR_ILI", "Fixing crossing lines");
        //A union of the geometry collection with one line fixes invalid geometries
        OGRGeometry* poUnion = poLines->Union(poLines->getGeometryRef(0));
        if( poUnion != NULL )
        {
            if( wkbFlatten(poUnion->getGeometryType()) == wkbGeometryCollection ||
                    wkbFlatten(poUnion->getGeometryType()) == wkbMultiLineString )
            {
                poNoncrossingLines = dynamic_cast<OGRGeometryCollection*>(poUnion);
                CPLDebug( "OGR_ILI", "Fixed lines: %d", poNoncrossingLines->getNumGeometries()-poLines->getNumGeometries());
            }
            else
            {
                delete poUnion;
            }
        }
    }

    GEOSContextHandle_t hGEOSCtxt = OGRGeometry::createGEOSContext();

    ahInGeoms = (GEOSGeom *) CPLCalloc(sizeof(void*),poNoncrossingLines->getNumGeometries());
    for( int i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
        ahInGeoms[i] = poNoncrossingLines->getGeometryRef(i)->exportToGEOS(hGEOSCtxt);

    hResultGeom = GEOSPolygonize_r( hGEOSCtxt,
                                    ahInGeoms,
                                    poNoncrossingLines->getNumGeometries() );

    for( int i = 0; i < poNoncrossingLines->getNumGeometries(); i++ )
        GEOSGeom_destroy_r( hGEOSCtxt, ahInGeoms[i] );
    CPLFree( ahInGeoms );
    if (poNoncrossingLines != poLines) delete poNoncrossingLines;

    if( hResultGeom == NULL )
    {
        OGRGeometry::freeGEOSContext( hGEOSCtxt );
        return new OGRMultiPolygon();
    }

    poMP = OGRGeometryFactory::createFromGEOS( hGEOSCtxt, hResultGeom );

    GEOSGeom_destroy_r( hGEOSCtxt, hResultGeom );
    OGRGeometry::freeGEOSContext( hGEOSCtxt );

    poMP = OGRGeometryFactory::forceToMultiPolygon( poMP );
    if( poMP && wkbFlatten(poMP->getGeometryType()) == wkbMultiPolygon )
        return dynamic_cast<OGRMultiPolygon *>(poMP);
    else
    {
        delete poMP;
        return new OGRMultiPolygon();
    }
#else
    return new OGRMultiPolygon();
#endif
}
static void ProcessCommonGeometry(OGRGeometry* poGeom, OGRGeometry *poClipSrc,
                                int iBurnField, double dfBurnValue,
                                const double dfIncreaseBurnValue,
                                const double dfMultiplyBurnValue,
                                std::vector<double> &adfX,
                                std::vector<double> &adfY,
                                std::vector<double> &adfZ)
{
    if (NULL == poGeom)
        return;

    OGRwkbGeometryType eType = wkbFlatten(poGeom->getGeometryType());
    switch (eType)
    {
    case wkbPoint:
        return ProcessGeometry((OGRPoint *)poGeom, poClipSrc,
            iBurnField, dfBurnValue, dfIncreaseBurnValue, dfMultiplyBurnValue, adfX, adfY, adfZ);
    case wkbLinearRing:
    case wkbLineString:
        {
            OGRLineString *poLS = (OGRLineString*)poGeom;
            OGRPoint point;
            for (int pointIndex = 0; pointIndex < poLS->getNumPoints(); pointIndex++)
            {
                poLS->getPoint(pointIndex, &point);
                ProcessCommonGeometry((OGRGeometry*)&point, poClipSrc,
                    iBurnField, dfBurnValue, dfIncreaseBurnValue, dfMultiplyBurnValue, adfX, adfY, adfZ);
            }
        }
        break;
    case wkbPolygon:
        {
            int nRings(0);
            OGRPolygon* poPoly = (OGRPolygon*)poGeom;
            OGRLinearRing* poRing = poPoly->getExteriorRing();
            ProcessCommonGeometry((OGRGeometry*)poRing, poClipSrc,
                iBurnField, dfBurnValue, dfIncreaseBurnValue, dfMultiplyBurnValue, adfX, adfY, adfZ);

            nRings = poPoly->getNumInteriorRings();
            if (nRings > 0)
            {
                for (int ir = 0; ir < nRings; ++ir)
                {
                    OGRLinearRing* poRing = poPoly->getInteriorRing(ir);
                    ProcessCommonGeometry((OGRGeometry*)poRing, poClipSrc,
                        iBurnField, dfBurnValue, dfIncreaseBurnValue, dfMultiplyBurnValue, adfX, adfY, adfZ);
                }
            }
        }
        break;
    case wkbMultiPoint:
    case wkbMultiPolygon:
    case wkbMultiLineString:
    case wkbGeometryCollection:
        {
            OGRGeometryCollection* pOGRGeometryCollection = (OGRGeometryCollection*)poGeom;
            for (int i = 0; i < pOGRGeometryCollection->getNumGeometries(); ++i)
            {
                ProcessCommonGeometry(pOGRGeometryCollection->getGeometryRef(i), poClipSrc,
                    iBurnField, dfBurnValue, dfIncreaseBurnValue, dfMultiplyBurnValue, adfX, adfY, adfZ);
            }
        }
        break;
    case wkbUnknown:
    case wkbNone:
    default:
        break;
    }
}
Exemple #18
0
OGRDXFFeature *OGRDXFLayer::TranslateHATCH()

{
    char szLineBuf[257];
    int nCode = 0;
    OGRDXFFeature *poFeature = new OGRDXFFeature( poFeatureDefn );

    CPLString osHatchPattern;
    double dfElevation = 0.0;  // Z value to be used for EVERY point
    /* int nFillFlag = 0; */
    OGRGeometryCollection oGC;

    while( (nCode = poDS->ReadValue(szLineBuf,sizeof(szLineBuf))) > 0 )
    {
        switch( nCode )
        {
          case 30:
            // Constant elevation.
            dfElevation = CPLAtof( szLineBuf );
            break;

          case 70:
            /* nFillFlag = atoi(szLineBuf); */
            break;

          case 2:
            osHatchPattern = szLineBuf;
            poFeature->SetField( "Text", osHatchPattern.c_str() );
            break;

          case 91:
          {
              int nBoundaryPathCount = atoi(szLineBuf);

              for( int iBoundary = 0;
                   iBoundary < nBoundaryPathCount;
                   iBoundary++ )
              {
                  if (CollectBoundaryPath( &oGC, dfElevation ) != OGRERR_NONE)
                      break;
              }
          }
          break;

          default:
            TranslateGenericProperty( poFeature, nCode, szLineBuf );
            break;
        }
    }
    if( nCode < 0 )
    {
        DXF_LAYER_READER_ERROR();
        delete poFeature;
        return nullptr;
    }

    if( nCode == 0 )
        poDS->UnreadValue();
   
/* -------------------------------------------------------------------- */
/*      Obtain a tolerance value used when building the polygon.        */
/* -------------------------------------------------------------------- */
   double dfTolerance = atof( CPLGetConfigOption( "DXF_HATCH_TOLERANCE", "-1" ) );
   if( dfTolerance < 0 )
   {
       // If the configuration variable isn't set, compute the bounding box
       // and work out a tolerance from that
       OGREnvelope oEnvelope;
       oGC.getEnvelope( &oEnvelope );
       dfTolerance = std::max( oEnvelope.MaxX - oEnvelope.MinX,
           oEnvelope.MaxY - oEnvelope.MinY ) * 1e-7;
   }

/* -------------------------------------------------------------------- */
/*      Try to turn the set of lines into something useful.             */
/* -------------------------------------------------------------------- */
    OGRErr eErr;

    OGRGeometry* poFinalGeom = (OGRGeometry *)
        OGRBuildPolygonFromEdges( (OGRGeometryH) &oGC,
                                  TRUE, TRUE, dfTolerance, &eErr );
    if( eErr != OGRERR_NONE )
    {
        delete poFinalGeom;
        OGRMultiLineString* poMLS = new OGRMultiLineString();
        for(int i=0;i<oGC.getNumGeometries();i++)
            poMLS->addGeometry(oGC.getGeometryRef(i));
        poFinalGeom = poMLS;
    }

    poFeature->ApplyOCSTransformer( poFinalGeom );
    poFeature->SetGeometryDirectly( poFinalGeom );

    PrepareBrushStyle( poFeature );

    return poFeature;
}
static void GDALCollectRingsFromGeometry(
    OGRGeometry *poShape, 
    std::vector<double> &aPointX, std::vector<double> &aPointY, 
    std::vector<double> &aPointVariant, 
    std::vector<int> &aPartSize, GDALBurnValueSrc eBurnValueSrc)

{
    if( poShape == NULL )
        return;

    OGRwkbGeometryType eFlatType = wkbFlatten(poShape->getGeometryType());
    int i;

    if ( eFlatType == wkbPoint )
    {
        OGRPoint    *poPoint = (OGRPoint *) poShape;
        int nNewCount = aPointX.size() + 1;

        aPointX.reserve( nNewCount );
        aPointY.reserve( nNewCount );
        aPointX.push_back( poPoint->getX() );
        aPointY.push_back( poPoint->getY() );
        aPartSize.push_back( 1 );
        if( eBurnValueSrc != GBV_UserBurnValue )
        {
            /*switch( eBurnValueSrc )
            {
            case GBV_Z:*/
                aPointVariant.reserve( nNewCount );
                aPointVariant.push_back( poPoint->getZ() );
                /*break;
            case GBV_M:
                aPointVariant.reserve( nNewCount );
                aPointVariant.push_back( poPoint->getM() );
            }*/
        }
    }
    else if ( eFlatType == wkbLineString )
    {
        OGRLineString   *poLine = (OGRLineString *) poShape;
        int nCount = poLine->getNumPoints();
        int nNewCount = aPointX.size() + nCount;

        aPointX.reserve( nNewCount );
        aPointY.reserve( nNewCount );
        if( eBurnValueSrc != GBV_UserBurnValue )
            aPointVariant.reserve( nNewCount );
        for ( i = nCount - 1; i >= 0; i-- )
        {
            aPointX.push_back( poLine->getX(i) );
            aPointY.push_back( poLine->getY(i) );
            if( eBurnValueSrc != GBV_UserBurnValue )
            {
                /*switch( eBurnValueSrc )
                {
                    case GBV_Z:*/
                        aPointVariant.push_back( poLine->getZ(i) );
                        /*break;
                    case GBV_M:
                        aPointVariant.push_back( poLine->getM(i) );
                }*/
            }
        }
        aPartSize.push_back( nCount );
    }
    else if ( EQUAL(poShape->getGeometryName(),"LINEARRING") )
    {
        OGRLinearRing *poRing = (OGRLinearRing *) poShape;
        int nCount = poRing->getNumPoints();
        int nNewCount = aPointX.size() + nCount;

        aPointX.reserve( nNewCount );
        aPointY.reserve( nNewCount );
        if( eBurnValueSrc != GBV_UserBurnValue )
            aPointVariant.reserve( nNewCount );
        for ( i = nCount - 1; i >= 0; i-- )
        {
            aPointX.push_back( poRing->getX(i) );
            aPointY.push_back( poRing->getY(i) );
        }
        if( eBurnValueSrc != GBV_UserBurnValue )
        {
            /*switch( eBurnValueSrc )
            {
            case GBV_Z:*/
                aPointVariant.push_back( poRing->getZ(i) );
                /*break;
            case GBV_M:
                aPointVariant.push_back( poRing->getM(i) );
            }*/
        }
        aPartSize.push_back( nCount );
    }
    else if( eFlatType == wkbPolygon )
    {
        OGRPolygon *poPolygon = (OGRPolygon *) poShape;
        
        GDALCollectRingsFromGeometry( poPolygon->getExteriorRing(), 
                                      aPointX, aPointY, aPointVariant, 
                                      aPartSize, eBurnValueSrc );

        for( i = 0; i < poPolygon->getNumInteriorRings(); i++ )
            GDALCollectRingsFromGeometry( poPolygon->getInteriorRing(i), 
                                          aPointX, aPointY, aPointVariant, 
                                          aPartSize, eBurnValueSrc );
    }
    
    else if( eFlatType == wkbMultiPoint
             || eFlatType == wkbMultiLineString
             || eFlatType == wkbMultiPolygon
             || eFlatType == wkbGeometryCollection )
    {
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poShape;

        for( i = 0; i < poGC->getNumGeometries(); i++ )
            GDALCollectRingsFromGeometry( poGC->getGeometryRef(i),
                                          aPointX, aPointY, aPointVariant, 
                                          aPartSize, eBurnValueSrc );
    }
    else
    {
        CPLDebug( "GDAL", "Rasterizer ignoring non-polygonal geometry." );
    }
}
Exemple #20
0
static int OGR2ILIGeometryAppend( OGRGeometry *poGeometry, VSILFILE* fp, const char *attrname, CPLString iliGeomType )
{
    //CPLDebug( "OGR_ILI", "OGR2ILIGeometryAppend getGeometryType %s iliGeomType %s", poGeometry->getGeometryName(), iliGeomType.c_str());
/* -------------------------------------------------------------------- */
/*      2D/3D Point                                                     */
/* -------------------------------------------------------------------- */
    if( poGeometry->getGeometryType() == wkbPoint || poGeometry->getGeometryType() == wkbPoint25D )
    {
        OGRPoint *poPoint = (OGRPoint *) poGeometry;

        VSIFPrintfL(fp, "<%s>\n", attrname);
        VSIFPrintfL(fp, "<COORD>");
        VSIFPrintfL(fp, "<C1>%s</C1>", d2str(poPoint->getX()));
        VSIFPrintfL(fp, "<C2>%s</C2>", d2str(poPoint->getY()));
        if( poGeometry->getGeometryType() == wkbPoint25D )
            VSIFPrintfL(fp, "<C3>%s</C3>", d2str(poPoint->getZ()));
        VSIFPrintfL(fp, "</COORD>\n");
        VSIFPrintfL(fp, "</%s>\n", attrname);
    }

/* -------------------------------------------------------------------- */
/*      LineString and LinearRing                                       */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbLineString
             || poGeometry->getGeometryType() == wkbLineString25D )
    {
        if (attrname) VSIFPrintfL(fp, "<%s>\n", attrname);
        VSIFPrintfL(fp, "<POLYLINE>\n");
        // unclipped polyline, add one sequence
        // VSIFPrintfL(fp, "<SEGMENTS>\n");
        AppendCoordinateList( (OGRLineString *) poGeometry, fp );
        // VSIFPrintfL(fp, "</SEGMENTS>\n");
        VSIFPrintfL(fp, "</POLYLINE>\n");
        if (attrname) VSIFPrintfL(fp, "</%s>\n", attrname);
    }

/* -------------------------------------------------------------------- */
/*      Polygon                                                         */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPolygon
             || poGeometry->getGeometryType() == wkbPolygon25D )
    {
        OGRPolygon      *poPolygon = (OGRPolygon *) poGeometry;

        if (attrname) VSIFPrintfL(fp, "<%s>\n", attrname);
        if( iliGeomType == "Surface" || iliGeomType == "Area" )
        {
            //VSIFPrintfL(fp, "<MULTISURFACE>\n");
            VSIFPrintfL(fp, "<SURFACE>\n");
            VSIFPrintfL(fp, "<BOUNDARY>\n");
        }

        if( poPolygon->getExteriorRing() != NULL )
        {
            if( !OGR2ILIGeometryAppend( poPolygon->getExteriorRing(), fp, NULL, "" ) )
                return FALSE;
        }

        for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
        {
            OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);

            if( !OGR2ILIGeometryAppend( poRing, fp, NULL, "" ) )
                return FALSE;
        }
        if( iliGeomType == "Surface" || iliGeomType == "Area" )
        {
            VSIFPrintfL(fp, "</BOUNDARY>\n");
            VSIFPrintfL(fp, "</SURFACE>\n");
            //VSIFPrintfL(fp, "</MULTISURFACE>\n");
        }
        if (attrname) VSIFPrintfL(fp, "</%s>\n", attrname);
    }

/* -------------------------------------------------------------------- */
/*      MultiPolygon                                                    */
/* -------------------------------------------------------------------- */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint
             || wkbFlatten(poGeometry->getGeometryType()) == wkbGeometryCollection )
    {
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
        int             iMember;

        if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
        {
        }
        else
        {
        }

        for( iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
        {
            OGRGeometry *poMember = poGC->getGeometryRef( iMember );

            if( !OGR2ILIGeometryAppend( poMember, fp, NULL, "" ) )
                return FALSE;
        }

    }

    else
        return FALSE;

    return TRUE;
}
Exemple #21
0
OGRGeometryH OGRBuildPolygonFromEdges( OGRGeometryH hLines,
                                       int bBestEffort,
                                       int bAutoClose,
                                       double dfTolerance,
                                       OGRErr * peErr )

{
    int         bSuccess = TRUE;
    OGRGeometryCollection *poLines = (OGRGeometryCollection *) hLines;
    OGRPolygon  *poPolygon = new OGRPolygon();

    (void) bBestEffort;

/* -------------------------------------------------------------------- */
/*      Setup array of line markers indicating if they have been        */
/*      added to a ring yet.                                            */
/* -------------------------------------------------------------------- */
    int         nEdges = poLines->getNumGeometries();
    int         *panEdgeConsumed, nRemainingEdges = nEdges;

    panEdgeConsumed = (int *) CPLCalloc(sizeof(int),nEdges);

/* ==================================================================== */
/*      Loop generating rings.                                          */
/* ==================================================================== */
    while( nRemainingEdges > 0 )
    {
        int             iEdge;
        OGRLineString   *poLine;

/* -------------------------------------------------------------------- */
/*      Find the first unconsumed edge.                                 */
/* -------------------------------------------------------------------- */
        for( iEdge = 0; panEdgeConsumed[iEdge]; iEdge++ ) {}

        poLine = (OGRLineString *) poLines->getGeometryRef(iEdge);

/* -------------------------------------------------------------------- */
/*      Start a new ring, copying in the current line directly          */
/* -------------------------------------------------------------------- */
        OGRLinearRing   *poRing = new OGRLinearRing();

        AddEdgeToRing( poRing, poLine, FALSE );

        panEdgeConsumed[iEdge] = TRUE;
        nRemainingEdges--;

/* ==================================================================== */
/*      Loop adding edges to this ring until we make a whole pass       */
/*      within finding anything to add.                                 */
/* ==================================================================== */
        int             bWorkDone = TRUE;
        double          dfBestDist = dfTolerance;

        while( !CheckPoints(poRing,0,poRing,poRing->getNumPoints()-1,NULL)
               && nRemainingEdges > 0
               && bWorkDone )
        {
            int         iBestEdge = -1, bReverse = FALSE;

            bWorkDone = FALSE;
            dfBestDist = dfTolerance;

            // We consider linking the end to the beginning.  If this is
            // closer than any other option we will just close the loop.

            //CheckPoints(poRing,0,poRing,poRing->getNumPoints()-1,&dfBestDist);

            // Find unused edge with end point closest to our loose end.
            for( iEdge = 0; iEdge < nEdges; iEdge++ )
            {
                if( panEdgeConsumed[iEdge] )
                    continue;

                poLine = (OGRLineString *) poLines->getGeometryRef(iEdge);

                if( CheckPoints(poLine,0,poRing,poRing->getNumPoints()-1,
                                &dfBestDist) )
                {
                    iBestEdge = iEdge;
                    bReverse = FALSE;
                }
                if( CheckPoints(poLine,poLine->getNumPoints()-1,
                                poRing,poRing->getNumPoints()-1,
                                &dfBestDist) )
                {
                    iBestEdge = iEdge;
                    bReverse = TRUE;
                }
            }

            // We found one within tolerance - add it.
            if( iBestEdge != -1 )
            {
                poLine = (OGRLineString *)
                    poLines->getGeometryRef(iBestEdge);

                AddEdgeToRing( poRing, poLine, bReverse );

                panEdgeConsumed[iBestEdge] = TRUE;
                nRemainingEdges--;
                bWorkDone = TRUE;
            }
        }

/* -------------------------------------------------------------------- */
/*      Did we fail to complete the ring?                               */
/* -------------------------------------------------------------------- */
        dfBestDist = dfTolerance;

        if( !CheckPoints(poRing,0,poRing,poRing->getNumPoints()-1,
                         &dfBestDist) )
        {
            CPLDebug( "OGR",
                     "Failed to close ring %d.\n"
                     "End Points are: (%.8f,%.7f) and (%.7f,%.7f)\n",
                     poPolygon->getNumInteriorRings()+1,
                     poRing->getX(0), poRing->getY(0),
                     poRing->getX(poRing->getNumPoints()-1),
                     poRing->getY(poRing->getNumPoints()-1) );

            bSuccess = FALSE;
        }

/* -------------------------------------------------------------------- */
/*      Do we need to auto-close this ring?                             */
/* -------------------------------------------------------------------- */
        if( bAutoClose
            && !CheckPoints(poRing,0,poRing,poRing->getNumPoints()-1,NULL) )
        {
            poRing->addPoint( poRing->getX(0),
                              poRing->getY(0),
                              poRing->getZ(0));
        }

        poPolygon->addRingDirectly( poRing );
    } /* next ring */

/* -------------------------------------------------------------------- */
/*      Cleanup.                                                        */
/* -------------------------------------------------------------------- */
    CPLFree( panEdgeConsumed );

// Eventually we should at least identify the external ring properly,
// perhaps even ordering the direction of rings, though this isn't
// required by the OGC geometry model.

    if( peErr != NULL )
    {
        if( bSuccess )
            *peErr = OGRERR_NONE;
        else
            *peErr = OGRERR_FAILURE;
    }

    return (OGRGeometryH) poPolygon;
}
Exemple #22
0
static int OGR2GML3GeometryAppend( OGRGeometry *poGeometry,
                                   const OGRSpatialReference* poParentSRS,
                                  char **ppszText, int *pnLength,
                                  int *pnMaxLength,
                                  int bIsSubGeometry,
                                  int bLongSRS,
                                  int bLineStringAsCurve,
                                  const char* pszGMLId = NULL)

{

/* -------------------------------------------------------------------- */
/*      Check for Spatial Reference System attached to given geometry   */
/* -------------------------------------------------------------------- */

    // Buffer for srsName 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 oSRS;
                        if (oSRS.importFromEPSGA(atoi(pszAuthCode)) == OGRERR_NONE)
                        {
                            if (oSRS.EPSGTreatsAsLatLong())
                                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 (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 );
            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 );

            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 ) )
            {
                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 ) )
                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 );

            if( !OGR2GML3GeometryAppend( poMember, poSRS,
                                        ppszText, pnLength, pnMaxLength,
                                        TRUE, bLongSRS, bLineStringAsCurve ) )
            {
                return FALSE;
            }

            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;
}
OGRErr OGROCIWritableLayer::TranslateToSDOGeometry( OGRGeometry * poGeometry,
                                                    int *pnGType )

{
    nOrdinalCount = 0;
    nElemInfoCount = 0;

    if( poGeometry == NULL )
        return OGRERR_FAILURE;

/* ==================================================================== */
/*      Handle a point geometry.                                        */
/* ==================================================================== */
    if( wkbFlatten(poGeometry->getGeometryType()) == wkbPoint )
    {
#ifdef notdef
        char szResult[1024];
        OGRPoint *poPoint = (OGRPoint *) poGeometry;

        if( nDimension == 2 )
            CPLsprintf( szResult, 
                     "%s(%d,%s,MDSYS.SDO_POINT_TYPE(%.16g,%.16g,0.0),NULL,NULL)",
                     SDO_GEOMETRY, 2001, szSRID, 
                     poPoint->getX(), poPoint->getY() );
        else
            CPLsprintf( szResult, 
                     "%s(%d,%s,MDSYS.SDO_POINT_TYPE(%.16g,%.16g,%.16g),NULL,NULL)",
                     SDO_GEOMETRY, 3001, szSRID, 
                     poPoint->getX(), poPoint->getY(), poPoint->getZ() );

        return CPLStrdup(szResult );
#endif
    }

/* ==================================================================== */
/*      Handle a line string geometry.                                  */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbLineString )
    {
        *pnGType = nDimension * 1000 + 2;
        TranslateElementGroup( poGeometry );
        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle a polygon geometry.                                      */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbPolygon )
    {
        *pnGType = nDimension == 2 ? 2003 : 3003;
        TranslateElementGroup( poGeometry );
        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle a multi point geometry.                                  */
/* ==================================================================== */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
    {
        OGRMultiPoint *poMP = (OGRMultiPoint *) poGeometry;
        int  iVert;

        *pnGType = nDimension*1000 + 5;
        PushElemInfo( 1, 1, poMP->getNumGeometries() );
        
        for( iVert = 0; iVert < poMP->getNumGeometries(); iVert++ )
        {
            OGRPoint *poPoint = (OGRPoint *)poMP->getGeometryRef( iVert );

            PushOrdinal( poPoint->getX() );
            PushOrdinal( poPoint->getY() );
            if( nDimension == 3 )
                PushOrdinal( poPoint->getZ() );
        }

        return OGRERR_NONE;
    }

/* ==================================================================== */
/*      Handle other geometry collections.                              */
/* ==================================================================== */
    else
    {
/* -------------------------------------------------------------------- */
/*      Identify the GType.                                             */
/* -------------------------------------------------------------------- */
        if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
            *pnGType = nDimension * 1000 + 6;
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
            *pnGType = nDimension * 1000 + 7;
        else if( wkbFlatten(poGeometry->getGeometryType()) 
                 == wkbGeometryCollection )
            *pnGType = nDimension * 1000 + 4;
        else 
        {
            CPLError( CE_Failure, CPLE_AppDefined,
                      "Unexpected geometry type (%d/%s) in "
                      "OGROCIWritableLayer::TranslateToSDOGeometry()",
                      poGeometry->getGeometryType(), 
                      poGeometry->getGeometryName() );
            return OGRERR_FAILURE;
        }

/* -------------------------------------------------------------------- */
/*      Translate each child in turn.                                   */
/* -------------------------------------------------------------------- */
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
        int  iChild;

        for( iChild = 0; iChild < poGC->getNumGeometries(); iChild++ )
            TranslateElementGroup( poGC->getGeometryRef(iChild) );

        return OGRERR_NONE;
    }

    return OGRERR_FAILURE;
}
Exemple #24
0
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;
}
//! Simplifies the OGR-geometry (Removing duplicated points) when is applied the specified map2pixel context
bool QgsOgrMapToPixelSimplifier::simplifyOgrGeometry( OGRGeometry* geometry, bool isaLinearRing )
{
  OGRwkbGeometryType wkbGeometryType = wkbFlatten( geometry->getGeometryType() );

  // Simplify the geometry rewriting temporally its WKB-stream for saving calloc's.
  if ( wkbGeometryType == wkbLineString )
  {
    OGRLineString* lineString = ( OGRLineString* )geometry;

    int numPoints = lineString->getNumPoints();
    if (( isaLinearRing && numPoints <= 5 ) || ( !isaLinearRing && numPoints <= 2 ) ) return false;

    OGREnvelope env;
    geometry->getEnvelope( &env );
    QgsRectangle envelope( env.MinX, env.MinY, env.MaxX, env.MaxY );

    // Can replace the geometry by its BBOX ?
    if (( mSimplifyFlags & QgsMapToPixelSimplifier::SimplifyEnvelope ) && canbeGeneralizedByMapBoundingBox( envelope ) )
    {
      OGRRawPoint* points = NULL;
      int numPoints = 0;

      double x1 = envelope.xMinimum();
      double y1 = envelope.yMinimum();
      double x2 = envelope.xMaximum();
      double y2 = envelope.yMaximum();

      if ( isaLinearRing )
      {
        numPoints = 5;
        points = mallocPoints( numPoints );
        points[0].x = x1; points[0].y = y1;
        points[1].x = x2; points[1].y = y1;
        points[2].x = x2; points[2].y = y2;
        points[3].x = x1; points[3].y = y2;
        points[4].x = x1; points[4].y = y1;
      }
      else
      {
        numPoints = 2;
        points = mallocPoints( numPoints );
        points[0].x = x1; points[0].y = y1;
        points[1].x = x2; points[1].y = y2;
      }
      lineString->setPoints( numPoints, points );
      lineString->flattenTo2D();
      return true;
    }
    else
      if ( mSimplifyFlags & QgsMapToPixelSimplifier::SimplifyGeometry )
      {
        QGis::GeometryType geometryType = isaLinearRing ? QGis::Polygon : QGis::Line;
        int numSimplifiedPoints = 0;

        OGRRawPoint* points = mallocPoints( numPoints );
        double* xptr = ( double* )points;
        double* yptr = xptr + 1;
        lineString->getPoints( points );

        if ( simplifyOgrGeometry( geometryType, envelope, xptr, 16, yptr, 16, numPoints, numSimplifiedPoints ) )
        {
          lineString->setPoints( numSimplifiedPoints, points );
          lineString->flattenTo2D();
        }
        return numSimplifiedPoints != numPoints;
      }
  }
  else
    if ( wkbGeometryType == wkbPolygon )
    {
      OGRPolygon* polygon = ( OGRPolygon* )geometry;
      bool result = simplifyOgrGeometry( polygon->getExteriorRing(), true );

      for ( int i = 0, numInteriorRings = polygon->getNumInteriorRings(); i < numInteriorRings; ++i )
      {
        result |= simplifyOgrGeometry( polygon->getInteriorRing( i ), true );
      }
      if ( result ) polygon->flattenTo2D();
      return result;
    }
    else
      if ( wkbGeometryType == wkbMultiLineString || wkbGeometryType == wkbMultiPolygon )
      {
        OGRGeometryCollection* collection = ( OGRGeometryCollection* )geometry;
        bool result = false;

        for ( int i = 0, numGeometries = collection->getNumGeometries(); i < numGeometries; ++i )
        {
          result |= simplifyOgrGeometry( collection->getGeometryRef( i ), wkbGeometryType == wkbMultiPolygon );
        }
        if ( result ) collection->flattenTo2D();
        return result;
      }
  return false;
}
OGRFeature *OGRDXFLayer::TranslateHATCH()

{
    char szLineBuf[257];
    int nCode;
    OGRFeature *poFeature = new OGRFeature( poFeatureDefn );

    CPLString osHatchPattern;
    int nFillFlag = 0;
    OGRGeometryCollection oGC;

    while( (nCode = poDS->ReadValue(szLineBuf,sizeof(szLineBuf))) > 0 )
    {
        switch( nCode )
        {
          case 70:
            nFillFlag = atoi(szLineBuf);
            break;

          case 2:
            osHatchPattern = szLineBuf;
            poFeature->SetField( "Text", osHatchPattern.c_str() );
            break;

          case 91:
          {
              int nBoundaryPathCount = atoi(szLineBuf);
              int iBoundary;

              for( iBoundary = 0; iBoundary < nBoundaryPathCount; iBoundary++ )
              {
                  if (CollectBoundaryPath( &oGC ) != OGRERR_NONE)
                      break;
              }
          }
          break;

          default:
            TranslateGenericProperty( poFeature, nCode, szLineBuf );
            break;
        }
    }

    if( nCode == 0 )
        poDS->UnreadValue();

/* -------------------------------------------------------------------- */
/*      Try to turn the set of lines into something useful.             */
/* -------------------------------------------------------------------- */
    OGRErr eErr;

    OGRGeometry* poFinalGeom = (OGRGeometry *)
        OGRBuildPolygonFromEdges( (OGRGeometryH) &oGC,
                                  TRUE, TRUE, 0.0000001, &eErr );
    if( eErr != OGRERR_NONE )
    {
        delete poFinalGeom;
        OGRMultiLineString* poMLS = new OGRMultiLineString();
        for(int i=0;i<oGC.getNumGeometries();i++)
            poMLS->addGeometry(oGC.getGeometryRef(i));
        poFinalGeom = poMLS;
    }

    ApplyOCSTransformer( poFinalGeom );
    poFeature->SetGeometryDirectly( poFinalGeom );

/* -------------------------------------------------------------------- */
/*      Work out the color for this feature.  For now we just assume    */
/*      solid fill.  We cannot trivially translate the various sorts    */
/*      of hatching.                                                    */
/* -------------------------------------------------------------------- */
    CPLString osLayer = poFeature->GetFieldAsString("Layer");

    int nColor = 256;

    if( oStyleProperties.count("Color") > 0 )
        nColor = atoi(oStyleProperties["Color"]);

    // Use layer color? 
    if( nColor < 1 || nColor > 255 )
    {
        const char *pszValue = poDS->LookupLayerProperty( osLayer, "Color" );
        if( pszValue != NULL )
            nColor = atoi(pszValue);
    }
        
/* -------------------------------------------------------------------- */
/*      Setup the style string.                                         */
/* -------------------------------------------------------------------- */
    if( nColor >= 1 && nColor <= 255 )
    {
        CPLString osStyle;
        const unsigned char *pabyDXFColors = ACGetColorTable();
        
        osStyle.Printf( "BRUSH(fc:#%02x%02x%02x)",
                        pabyDXFColors[nColor*3+0],
                        pabyDXFColors[nColor*3+1],
                        pabyDXFColors[nColor*3+2] );
        
        poFeature->SetStyleString( osStyle );
    }

    return poFeature;
}
int OGRILI1Layer::GeometryAppend( OGRGeometry *poGeometry )
{
/* -------------------------------------------------------------------- */
/*      2D Point                                                        */
/* -------------------------------------------------------------------- */
    if( poGeometry->getGeometryType() == wkbPoint )
    {
        /* embedded in from non-geometry fields */
    }
/* -------------------------------------------------------------------- */
/*      3D Point                                                        */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPoint25D )
    {
        /* embedded in from non-geometry fields */
    }

/* -------------------------------------------------------------------- */
/*      LineString and LinearRing                                       */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbLineString
             || poGeometry->getGeometryType() == wkbLineString25D )
    {
        AppendCoordinateList( (OGRLineString *) poGeometry, poDS );
    }

/* -------------------------------------------------------------------- */
/*      Polygon                                                         */
/* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPolygon
             || poGeometry->getGeometryType() == wkbPolygon25D )
    {
        OGRPolygon      *poPolygon = (OGRPolygon *) poGeometry;

        if( poPolygon->getExteriorRing() != NULL )
        {
            if( !GeometryAppend( poPolygon->getExteriorRing() ) )
                return FALSE;
        }

        for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
        {
            OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);

            if( !GeometryAppend( poRing ) )
                return FALSE;
        }
    }

/* -------------------------------------------------------------------- */
/*      MultiPolygon                                                    */
/* -------------------------------------------------------------------- */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint
             || wkbFlatten(poGeometry->getGeometryType()) == wkbGeometryCollection )
    {
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
        int             iMember;

        if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
        {
        }
        else
        {
        }

        for( iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
        {
            OGRGeometry *poMember = poGC->getGeometryRef( iMember );

            if( !GeometryAppend( poMember ) )
                return FALSE;
        }

    }

    else
        return FALSE;

    return TRUE;
}
OGRErr OGRWritableDWGLayer::WriteEntity( OGRGeometry *poGeom,
                                         OdDbObjectPtr *ppObjectRet )

{
    switch( wkbFlatten(poGeom->getGeometryType()) )
    {
      case wkbPoint:
      {
          OGRPoint *poOGRPoint = (OGRPoint *) poGeom;
          OdDbPointPtr pPoint = OdDbPoint::createObject();
          
          pPoint->setPosition( 
              OdGePoint3d(poOGRPoint->getX(), poOGRPoint->getY(), 
                          poOGRPoint->getZ() ) );

          pPoint->setLayer( hLayerId, false );
          poDS->pMs->appendOdDbEntity( pPoint );
          
          if( ppObjectRet != NULL )
              *ppObjectRet = pPoint;
          return OGRERR_NONE;
      }

      case wkbLineString:
      {
          OGRLineString *poLine = (OGRLineString *) poGeom;

          // Add a 2d polyline with vertices.
          OdDb2dPolylinePtr p2dPl = OdDb2dPolyline::createObject();
 
          int i;

          for (i = 0; i < poLine->getNumPoints(); i++)
          {
              OdDb2dVertexPtr pV;
              OdGePoint3d pos;

              pos.x = poLine->getX(i);
              pos.y = poLine->getY(i);
              pos.z = poLine->getZ(i);

              pV = OdDb2dVertex::createObject();
              p2dPl->appendVertex(pV);

              pV->setPosition(pos);
          }
  
          p2dPl->setLayer( hLayerId, false );

          poDS->pMs->appendOdDbEntity( p2dPl );

          if( ppObjectRet != NULL )
              *ppObjectRet = p2dPl;

          return OGRERR_NONE;
      }

      case wkbPolygon:
      {
          OGRPolygon *poPoly = (OGRPolygon *) poGeom;
          int iRing;
          OGRErr eErr;

          for( iRing = -1; iRing < poPoly->getNumInteriorRings(); iRing++ )
          {
              OGRLinearRing *poRing;

              if( iRing == -1 )
                  poRing = poPoly->getExteriorRing();
              else
                  poRing = poPoly->getInteriorRing( iRing );

              if( iRing == -1 )
                  eErr = WriteEntity( poRing, ppObjectRet );
              else
                  eErr = WriteEntity( poRing, NULL );
              if( eErr != OGRERR_NONE )
                  return eErr;

          }

          return OGRERR_NONE;
      }

      case wkbGeometryCollection:
      case wkbMultiPolygon:
      case wkbMultiPoint:
      case wkbMultiLineString:
      {
          OGRGeometryCollection *poColl = (OGRGeometryCollection *) poGeom;
          int iSubGeom;
          OGRErr eErr;

          for( iSubGeom=0; iSubGeom < poColl->getNumGeometries(); iSubGeom++ )
          {
              OGRGeometry *poGeom = poColl->getGeometryRef( iSubGeom );
              
              if( iSubGeom == 0 )
                  eErr = WriteEntity( poGeom, ppObjectRet );
              else
                  eErr = WriteEntity( poGeom, NULL );
                  
              if( eErr != OGRERR_NONE )
                  return eErr;
          }
          return OGRERR_NONE;
      }

      default:
        return OGRERR_FAILURE;
    }
}
/**********************************************************************
 *                   IMapInfoFile::CreateFeature()
 *
 * Standard OGR CreateFeature implementation.  This method is used
 * to create a new feature in current dataset
 **********************************************************************/
OGRErr     IMapInfoFile::CreateFeature(OGRFeature *poFeature)
{
    TABFeature *poTABFeature;
    OGRGeometry   *poGeom;
    OGRwkbGeometryType eGType;
    OGRErr  eErr;
    TABPoint *poTABPointFeature = NULL;
    TABRegion *poTABRegionFeature = NULL;
    TABPolyline *poTABPolylineFeature = NULL;

    /*-----------------------------------------------------------------
     * MITAB won't accept new features unless they are in a type derived
     * from TABFeature... so we have to do our best to map to the right
     * feature type based on the geometry type.
     *----------------------------------------------------------------*/
    poGeom = poFeature->GetGeometryRef();
    if( poGeom != NULL )
        eGType = poGeom->getGeometryType();
    else
        eGType = wkbNone;

    switch( wkbFlatten(eGType) )
    {
    /*-------------------------------------------------------------
     * POINT
     *------------------------------------------------------------*/
    case wkbPoint:
        poTABFeature = new TABPoint(poFeature->GetDefnRef());
        if(poFeature->GetStyleString())
        {
            poTABPointFeature = (TABPoint*)poTABFeature;
            poTABPointFeature->SetSymbolFromStyleString(
                poFeature->GetStyleString());
        }
        break;
    /*-------------------------------------------------------------
     * REGION
     *------------------------------------------------------------*/
    case wkbPolygon:
    case wkbMultiPolygon:
        poTABFeature = new TABRegion(poFeature->GetDefnRef());
        if(poFeature->GetStyleString())
        {
            poTABRegionFeature = (TABRegion*)poTABFeature;
            poTABRegionFeature->SetPenFromStyleString(
                poFeature->GetStyleString());

            poTABRegionFeature->SetBrushFromStyleString(
                poFeature->GetStyleString());
        }
        break;
    /*-------------------------------------------------------------
     * LINE/PLINE/MULTIPLINE
     *------------------------------------------------------------*/
    case wkbLineString:
    case wkbMultiLineString:
        poTABFeature = new TABPolyline(poFeature->GetDefnRef());
        if(poFeature->GetStyleString())
        {
            poTABPolylineFeature = (TABPolyline*)poTABFeature;
            poTABPolylineFeature->SetPenFromStyleString(
                poFeature->GetStyleString());
        }
        break;
    /*-------------------------------------------------------------
     * Collection types that are not directly supported... convert
     * to multiple features in output file through recursive calls.
     *------------------------------------------------------------*/
    case wkbGeometryCollection:
    case wkbMultiPoint:
    {
        OGRErr eStatus = OGRERR_NONE;
        int i;
        OGRGeometryCollection *poColl = (OGRGeometryCollection*)poGeom;
        OGRFeature *poTmpFeature = poFeature->Clone();

        for (i=0; eStatus==OGRERR_NONE && i<poColl->getNumGeometries(); i++)
        {
            poTmpFeature->SetGeometry(poColl->getGeometryRef(i));
            eStatus = CreateFeature(poTmpFeature);
        }
        delete poTmpFeature;
        return eStatus;
    }
    break;
    /*-------------------------------------------------------------
     * Unsupported type.... convert to MapInfo geometry NONE
     *------------------------------------------------------------*/
    case wkbUnknown:
    default:
        poTABFeature = new TABFeature(poFeature->GetDefnRef());
        break;
    }

    if( poGeom != NULL )
        poTABFeature->SetGeometryDirectly(poGeom->clone());

    for (int i=0; i< poFeature->GetDefnRef()->GetFieldCount(); i++)
    {
        poTABFeature->SetField(i,poFeature->GetRawFieldRef( i ));
    }


    eErr = CreateFeature(poTABFeature);

    delete poTABFeature;

    return eErr;
}
Exemple #30
0
int OGRILI1Layer::GeometryAppend( OGRGeometry *poGeometry )
{
    //CPLDebug( "OGR_ILI", "OGRILI1Layer::GeometryAppend OGRGeometryType: %s", OGRGeometryTypeToName(poGeometry->getGeometryType()));
    /* -------------------------------------------------------------------- */
    /*      2D Point                                                        */
    /* -------------------------------------------------------------------- */
    if( poGeometry->getGeometryType() == wkbPoint )
    {
        /* embedded in from non-geometry fields */
    }
    /* -------------------------------------------------------------------- */
    /*      3D Point                                                        */
    /* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPoint25D )
    {
        /* embedded in from non-geometry fields */
    }

    /* -------------------------------------------------------------------- */
    /*      LineString and LinearRing                                       */
    /* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbLineString
             || poGeometry->getGeometryType() == wkbLineString25D )
    {
        AppendCoordinateList( (OGRLineString *) poGeometry, poDS );
    }

    /* -------------------------------------------------------------------- */
    /*      Polygon                                                         */
    /* -------------------------------------------------------------------- */
    else if( poGeometry->getGeometryType() == wkbPolygon
             || poGeometry->getGeometryType() == wkbPolygon25D )
    {
        OGRPolygon      *poPolygon = (OGRPolygon *) poGeometry;

        if( poPolygon->getExteriorRing() != NULL )
        {
            if( !GeometryAppend( poPolygon->getExteriorRing() ) )
                return FALSE;
        }

        for( int iRing = 0; iRing < poPolygon->getNumInteriorRings(); iRing++ )
        {
            OGRLinearRing *poRing = poPolygon->getInteriorRing(iRing);

            if( !GeometryAppend( poRing ) )
                return FALSE;
        }
    }

    /* -------------------------------------------------------------------- */
    /*      MultiPolygon                                                    */
    /* -------------------------------------------------------------------- */
    else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint
             || wkbFlatten(poGeometry->getGeometryType()) == wkbGeometryCollection
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiCurve
             || wkbFlatten(poGeometry->getGeometryType()) == wkbMultiCurveZ )
    {
        OGRGeometryCollection *poGC = (OGRGeometryCollection *) poGeometry;
        int             iMember;

        if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPolygon )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiLineString )
        {
        }
        else if( wkbFlatten(poGeometry->getGeometryType()) == wkbMultiPoint )
        {
        }
        else
        {
        }

        for( iMember = 0; iMember < poGC->getNumGeometries(); iMember++)
        {
            OGRGeometry *poMember = poGC->getGeometryRef( iMember );
            if( !GeometryAppend( poMember ) )
                return FALSE;
        }

    }
    else if( poGeometry->getGeometryType() == wkbCompoundCurve
             || poGeometry->getGeometryType() == wkbCompoundCurveZ )
    {
        AppendCoumpoundCurve( ( OGRCompoundCurve *) poGeometry, poDS );
    } else {
        CPLError(CE_Warning, CPLE_AppDefined, "Skipping unknown geometry type '%s'", OGRGeometryTypeToName(poGeometry->getGeometryType()));
        return FALSE;
    }

    return TRUE;
}