Example #1
0
OGRLayer *
OGRMemDataSource::ICreateLayer( const char *pszLayerName,
                                OGRSpatialReference *poSRSIn,
                                OGRwkbGeometryType eType,
                                char **papszOptions )
{
    // Create the layer object.
    OGRSpatialReference* poSRS = poSRSIn;
    if( poSRS )
    {
        poSRS = poSRS->Clone();
        poSRS->SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
    }
    OGRMemLayer *poLayer = new OGRMemLayer(pszLayerName, poSRS, eType);
    if( poSRS )
    {
        poSRS->Release();
    }

    if( CPLFetchBool(papszOptions, "ADVERTIZE_UTF8", false) )
        poLayer->SetAdvertizeUTF8(true);

    // Add layer to data source layer list.
    papoLayers = static_cast<OGRMemLayer **>(
        CPLRealloc(papoLayers, sizeof(OGRMemLayer *) * (nLayers + 1)));

    papoLayers[nLayers++] = poLayer;

    return poLayer;
}
Example #2
0
OGRMemLayer::OGRMemLayer( const char * pszName, OGRSpatialReference *poSRSIn, 
                          OGRwkbGeometryType eReqType )

{
    iNextReadFID = 0;
    iNextCreateFID = 0;

    nFeatureCount = 0;
    nMaxFeatureCount = 0;
    papoFeatures = NULL;

    poFeatureDefn = new OGRFeatureDefn( pszName );
    SetDescription( poFeatureDefn->GetName() );
    poFeatureDefn->SetGeomType( eReqType );
    if( eReqType != wkbNone && poSRSIn != NULL )
    {
        OGRSpatialReference* poSRS = poSRSIn->Clone();
        poFeatureDefn->GetGeomFieldDefn(0)->SetSpatialRef(poSRS);
        poSRS->Release();
    }
    poFeatureDefn->Reference();

    bUpdatable = TRUE;
    bAdvertizeUTF8 = FALSE;
    bHasHoles = FALSE;
}
OGRLayer   *OGRAmigoCloudDataSource::ICreateLayer( const char *pszNameIn,
                                           OGRSpatialReference *poSpatialRef,
                                           OGRwkbGeometryType eGType,
                                           char ** papszOptions )
{
    if( !bReadWrite )
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Operation not available in read-only mode");
        return nullptr;
    }

    CPLString osName(pszNameIn);
    OGRAmigoCloudTableLayer* poLayer = new OGRAmigoCloudTableLayer(this, osName);
    const bool bGeomNullable =
        CPLFetchBool(papszOptions, "GEOMETRY_NULLABLE", true);
    OGRSpatialReference* poSRSClone = poSpatialRef;
    if( poSRSClone )
    {
        poSRSClone = poSRSClone->Clone();
        poSRSClone->SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
    }
    poLayer->SetDeferredCreation(eGType, poSRSClone, bGeomNullable);
    if( poSRSClone )
        poSRSClone->Release();
    papoLayers = (OGRAmigoCloudTableLayer**) CPLRealloc(
                    papoLayers, (nLayers + 1) * sizeof(OGRAmigoCloudTableLayer*));
    papoLayers[nLayers ++] = poLayer;

    return poLayer;
}
Example #4
0
void OGRUnionLayer::AutoWarpLayerIfNecessary(int iLayer)
{
    if( !pabCheckIfAutoWrap[iLayer] )
    {
        pabCheckIfAutoWrap[iLayer] = TRUE;

        for(int i=0; i<GetLayerDefn()->GetGeomFieldCount();i++)
        {
            OGRSpatialReference* poSRS = GetLayerDefn()->GetGeomFieldDefn(i)->GetSpatialRef();
            if( poSRS != NULL )
                poSRS->Reference();

            OGRFeatureDefn* poSrcFeatureDefn = papoSrcLayers[iLayer]->GetLayerDefn();
            int iSrcGeomField = poSrcFeatureDefn->GetGeomFieldIndex(
                    GetLayerDefn()->GetGeomFieldDefn(i)->GetNameRef());
            if( iSrcGeomField >= 0 )
            {
                OGRSpatialReference* poSRS2 =
                    poSrcFeatureDefn->GetGeomFieldDefn(iSrcGeomField)->GetSpatialRef();

                if( (poSRS == NULL && poSRS2 != NULL) ||
                    (poSRS != NULL && poSRS2 == NULL) )
                {
                    CPLError(CE_Warning, CPLE_AppDefined,
                            "SRS of geometry field '%s' layer %s not consistent with UnionLayer SRS",
                            GetLayerDefn()->GetGeomFieldDefn(i)->GetNameRef(),
                            papoSrcLayers[iLayer]->GetName());
                }
                else if (poSRS != NULL && poSRS2 != NULL &&
                        poSRS != poSRS2 && !poSRS->IsSame(poSRS2))
                {
                    CPLDebug("VRT", "SRS of geometry field '%s' layer %s not consistent with UnionLayer SRS. "
                            "Trying auto warping",
                            GetLayerDefn()->GetGeomFieldDefn(i)->GetNameRef(),
                            papoSrcLayers[iLayer]->GetName());
                    OGRCoordinateTransformation* poCT =
                        OGRCreateCoordinateTransformation( poSRS2, poSRS );
                    OGRCoordinateTransformation* poReversedCT = (poCT != NULL) ?
                        OGRCreateCoordinateTransformation( poSRS, poSRS2 ) : NULL;
                    if( poReversedCT != NULL )
                        papoSrcLayers[iLayer] = new OGRWarpedLayer(
                                    papoSrcLayers[iLayer], iSrcGeomField, TRUE, poCT, poReversedCT);
                    else
                    {
                        CPLError(CE_Warning, CPLE_AppDefined,
                                 "AutoWarpLayerIfNecessary failed to create "
                                 "poCT or poReversedCT.");
                        if ( poCT != NULL )
                            delete poCT;
                    }
                }
            }

            if( poSRS != NULL )
                poSRS->Release();
        }
    }
}
Example #5
0
void OGRESRIJSONReader::ReadLayers( OGRGeoJSONDataSource* poDS,
                                    GeoJSONSourceType eSourceType )
{
    CPLAssert( nullptr == poLayer_ );

    if( nullptr == poGJObject_ )
    {
        CPLDebug( "ESRIJSON",
                  "Missing parsed ESRIJSON data. Forgot to call Parse()?" );
        return;
    }

    OGRSpatialReference* poSRS = OGRESRIJSONReadSpatialReference( poGJObject_ );

    const char* pszName = "ESRIJSON";
    if( eSourceType == eGeoJSONSourceFile )
    {
        pszName = poDS->GetDescription();
        if( STARTS_WITH_CI(pszName, "ESRIJSON:") )
            pszName += strlen("ESRIJSON:");
        pszName = CPLGetBasename(pszName);
    }

    auto eGeomType = OGRESRIJSONGetGeometryType(poGJObject_);
    if( eGeomType == wkbNone && poSRS != nullptr )
    {
        eGeomType = wkbUnknown;
    }

    poLayer_ = new OGRGeoJSONLayer( pszName, poSRS,
                                    eGeomType,
                                    poDS, nullptr );
    if( poSRS != nullptr )
        poSRS->Release();

    if( !GenerateLayerDefn() )
    {
        CPLError( CE_Failure, CPLE_AppDefined,
                  "Layer schema generation failed." );

        delete poLayer_;
        return;
    }

    OGRGeoJSONLayer *poThisLayer = ReadFeatureCollection( poGJObject_ );
    if( poThisLayer == nullptr )
    {
        delete poLayer_;
        return;
    }

    CPLErrorReset();

    poLayer_->DetectGeometryType();
    poDS->AddLayer(poLayer_);
}
Example #6
0
File: gdal.cpp Project: rundel/sfr
// [[Rcpp::export]]
Rcpp::List CPL_transform(Rcpp::List sfc, Rcpp::CharacterVector proj4) {

	// import proj4string:
	OGRSpatialReference *dest = new OGRSpatialReference;
	handle_error(dest->importFromProj4((const char *) (proj4[0])));

	// transform geometries:
	std::vector<OGRGeometry *> g = ogr_from_sfc(sfc, NULL);
	if (g.size() == 0) {
		dest->Release(); // #nocov
		Rcpp::stop("CPL_transform: zero length geometry list"); // #nocov
	}
	OGRCoordinateTransformation *ct = 
		OGRCreateCoordinateTransformation(g[0]->getSpatialReference(), dest);
	if (ct == NULL) {
		dest->Release(); // #nocov
		Rcpp::stop("OGRCreateCoordinateTransformation() returned NULL: PROJ.4 available?"); // #nocov
	}
	for (size_t i = 0; i < g.size(); i++) {
		CPLPushErrorHandler(CPLQuietErrorHandler);
		OGRErr err = 0;
		if (! g[i]->IsEmpty())
			err = g[i]->transform(ct);
		CPLPopErrorHandler();
		if (err == 1 || err == 6) {
			OGRwkbGeometryType geomType = g[i]->getGeometryType();
			OGRGeometryFactory f;
			f.destroyGeometry(g[i]);
			g[i] = f.createGeometry(geomType);
		} else
			handle_error(err);
	}

	Rcpp::List ret = sfc_from_ogr(g, true); // destroys g;
	ct->DestroyCT(ct);
	dest->Release();
	return ret; 
}
Example #7
0
const char *NWT_GRCDataset::GetProjectionRef()
{
    if (pszProjection == NULL)
    {
        OGRSpatialReference *poSpatialRef
          = MITABCoordSys2SpatialRef( pGrd->cMICoordSys );
        if (poSpatialRef)
        {
            poSpatialRef->exportToWkt( &pszProjection );
            poSpatialRef->Release();
        }
    }
    return ( (const char *) pszProjection );
}
Example #8
0
const char *SDEDataset::GetProjectionRef()

{
    long nSDEErr;
    SE_COORDREF coordref;
    nSDEErr = SE_coordref_create(&coordref);

    if( nSDEErr != SE_SUCCESS )
    {
        IssueSDEError( nSDEErr, "SE_coordref_create" );
        return FALSE;
    }

    if (!hRasterColumn){
        CPLError ( CE_Failure, CPLE_AppDefined,
                   "Raster Column not defined");
        return ("");
    }

    nSDEErr = SE_rascolinfo_get_coordref(hRasterColumn, coordref);

    if (nSDEErr == SE_NO_COORDREF) {
        return ("");
    }

    if( nSDEErr != SE_SUCCESS )
    {
        IssueSDEError( nSDEErr, "SE_rascolinfo_get_coordref" );
    }

    char szWKT[SE_MAX_SPATIALREF_SRTEXT_LEN];
    nSDEErr = SE_coordref_get_description(coordref, szWKT);
    if (nSDEErr != SE_SUCCESS )
    {
        IssueSDEError( nSDEErr, "SE_coordref_get_description");
    }
    SE_coordref_free(coordref);

    OGRSpatialReference *poSRS;
    CPLDebug ("SDERASTER", "SDE says the coordinate system is: %s'", szWKT);
    poSRS = new OGRSpatialReference(szWKT);
    poSRS->morphFromESRI();

    poSRS->exportToWkt(&pszWKT);
    poSRS->Release();

    return pszWKT;
}
Example #9
0
void OGRESRIJSONReader::ReadLayers( OGRGeoJSONDataSource* poDS )
{
    CPLAssert( NULL == poLayer_ );

    if( NULL == poGJObject_ )
    {
        CPLDebug( "ESRIJSON",
                  "Missing parset ESRIJSON data. Forgot to call Parse()?" );
        return;
    }

    OGRSpatialReference* poSRS = NULL;
    poSRS = OGRESRIJSONReadSpatialReference( poGJObject_ );

    poLayer_ = new OGRGeoJSONLayer( OGRGeoJSONLayer::DefaultName, poSRS,
                                    OGRESRIJSONGetGeometryType(poGJObject_),
                                    poDS );
    if( poSRS != NULL )
        poSRS->Release();

    if( !GenerateLayerDefn() )
    {
        CPLError( CE_Failure, CPLE_AppDefined,
            "Layer schema generation failed." );

        delete poLayer_;
        return;
    }

    OGRGeoJSONLayer* poThisLayer = NULL;
    poThisLayer = ReadFeatureCollection( poGJObject_ );
    if (poThisLayer == NULL)
    {
        delete poLayer_;
        return;
    }

    CPLErrorReset();

    poDS->AddLayer(poLayer_);
}
Example #10
0
void OGRUnionLayer::AutoWarpLayerIfNecessary(int iLayer)
{
    if( !pabCheckIfAutoWrap[iLayer] )
    {
        pabCheckIfAutoWrap[iLayer] = TRUE;

        OGRSpatialReference* poSRS = GetSpatialRef();
        if( poSRS != NULL )
            poSRS->Reference();

        OGRSpatialReference* poSRS2 = papoSrcLayers[iLayer]->GetSpatialRef();

        if( (poSRS == NULL && poSRS2 != NULL) ||
            (poSRS != NULL && poSRS2 == NULL) )
        {
            CPLError(CE_Warning, CPLE_AppDefined,
                    "SRS of layer %s not consistant with layer SRS",
                    papoSrcLayers[iLayer]->GetName());
        }
        else if (poSRS != NULL && poSRS2 != NULL &&
                 poSRS != poSRS2 && !poSRS->IsSame(poSRS2))
        {
            CPLDebug("VRT", "SRS of layer %s not consistant with layer SRS. "
                     "Trying auto warping",
                     papoSrcLayers[iLayer]->GetName());
            OGRCoordinateTransformation* poCT =
                OGRCreateCoordinateTransformation( poSRS2, poSRS );
            OGRCoordinateTransformation* poReversedCT = (poCT != NULL) ?
                OGRCreateCoordinateTransformation( poSRS, poSRS2 ) : NULL;
            if( poCT != NULL && poReversedCT != NULL )
                papoSrcLayers[iLayer] = new OGRWarpedLayer(
                            papoSrcLayers[iLayer], TRUE, poCT, poReversedCT);
        }

        if( poSRS != NULL )
            poSRS->Release();
    }
}
Example #11
0
static OGRSpatialReference* BuildSRS(const char* pszWKT) {
    OGRSpatialReference* poSRS = new OGRSpatialReference(pszWKT);
    if (poSRS->morphFromESRI() != OGRERR_NONE) {
        delete poSRS;
        return nullptr;
    } else {
        if (poSRS->AutoIdentifyEPSG() != OGRERR_NONE) {
            int nEntries = 0;
            int* panConfidence = nullptr;
            OGRSpatialReferenceH* pahSRS = poSRS->FindMatches(nullptr,
                    &nEntries, &panConfidence);
            if (nEntries == 1 && panConfidence[0] == 100) {
                poSRS->Release();
                poSRS = reinterpret_cast<OGRSpatialReference*>(pahSRS[0]);
                CPLFree(pahSRS);
            } else {
                OSRFreeSRSArray(pahSRS);
            }
            CPLFree(panConfidence);
        }
        return poSRS;
    }
}
Example #12
0
int OGRKMLDataSource::Open( const char * pszNewName, int bTestOpen )
{
    CPLAssert( NULL != pszNewName );

    int nCount = 0;
    OGRKMLLayer *poLayer = NULL;
    OGRwkbGeometryType poGeotype;

/* -------------------------------------------------------------------- */
/*      Create a KML object and open the source file.                   */
/* -------------------------------------------------------------------- */
    poKMLFile_ = new KMLVector();

    if( !poKMLFile_->open( pszNewName ) )
    {
        delete poKMLFile_;
        poKMLFile_ = NULL;
        return FALSE;
    }

    pszName_ = CPLStrdup( pszNewName );

/* -------------------------------------------------------------------- */
/*      If we aren't sure it is KML, validate it by start parsing       */
/* -------------------------------------------------------------------- */
    if( bTestOpen && !poKMLFile_->isValid() )
    {
        delete poKMLFile_;
        poKMLFile_ = NULL;
        return FALSE;
    }

/* -------------------------------------------------------------------- */
/*      Prescan the KML file so we can later work with the structure    */
/* -------------------------------------------------------------------- */
    poKMLFile_->parse();

/* -------------------------------------------------------------------- */
/*      Classify the nodes                                              */
/* -------------------------------------------------------------------- */
    if( !poKMLFile_->classifyNodes() )
    {
        delete poKMLFile_;
        poKMLFile_ = NULL;
        return FALSE;
    }


/* -------------------------------------------------------------------- */
/*      Eliminate the empty containers (if there is at least one        */
/*      valid container !)                                              */
/* -------------------------------------------------------------------- */
    int bHasOnlyEmpty = poKMLFile_->hasOnlyEmpty();
    if (bHasOnlyEmpty)
        CPLDebug("KML", "Has only empty containers");
    else
        poKMLFile_->eliminateEmpty();

/* -------------------------------------------------------------------- */
/*      Find layers to use in the KML structure                         */
/* -------------------------------------------------------------------- */
    poKMLFile_->findLayers(NULL, bHasOnlyEmpty);

/* -------------------------------------------------------------------- */
/*      Print the structure                                             */
/* -------------------------------------------------------------------- */
    if( CPLGetConfigOption("KML_DEBUG",NULL) != NULL )
        poKMLFile_->print(3);

    nLayers_ = poKMLFile_->getNumLayers();

/* -------------------------------------------------------------------- */
/*      Allocate memory for the Layers                                  */
/* -------------------------------------------------------------------- */
    papoLayers_ = (OGRKMLLayer **)
        CPLMalloc( sizeof(OGRKMLLayer *) * nLayers_ );

    OGRSpatialReference *poSRS = new OGRSpatialReference("GEOGCS[\"WGS 84\", "
        "   DATUM[\"WGS_1984\","
        "       SPHEROID[\"WGS 84\",6378137,298.257223563,"
        "           AUTHORITY[\"EPSG\",\"7030\"]],"
        "           AUTHORITY[\"EPSG\",\"6326\"]],"
        "       PRIMEM[\"Greenwich\",0,"
        "           AUTHORITY[\"EPSG\",\"8901\"]],"
        "       UNIT[\"degree\",0.01745329251994328,"
        "           AUTHORITY[\"EPSG\",\"9122\"]],"
        "           AUTHORITY[\"EPSG\",\"4326\"]]");

/* -------------------------------------------------------------------- */
/*      Create the Layers and fill them                                 */
/* -------------------------------------------------------------------- */
    for( nCount = 0; nCount < nLayers_; nCount++ )
    {
        if( !poKMLFile_->selectLayer(nCount) )
        {
            CPLError( CE_Failure, CPLE_AppDefined,
                      "There are no layers or a layer can not be found!");
            break;
        }

        if( poKMLFile_->getCurrentType() == Point )
            poGeotype = wkbPoint;
        else if( poKMLFile_->getCurrentType() == LineString )
            poGeotype = wkbLineString;
        else if( poKMLFile_->getCurrentType() == Polygon )
            poGeotype = wkbPolygon;
        else if( poKMLFile_->getCurrentType() == MultiPoint )
            poGeotype = wkbMultiPoint;
        else if( poKMLFile_->getCurrentType() == MultiLineString )
            poGeotype = wkbMultiLineString;
        else if( poKMLFile_->getCurrentType() == MultiPolygon )
            poGeotype = wkbMultiPolygon;
        else if( poKMLFile_->getCurrentType() == MultiGeometry )
            poGeotype = wkbGeometryCollection;
        else
            poGeotype = wkbUnknown;
        
        if (poGeotype != wkbUnknown && poKMLFile_->is25D())
            poGeotype = wkbSetZ(poGeotype);

/* -------------------------------------------------------------------- */
/*      Create the layer object.                                        */
/* -------------------------------------------------------------------- */
        CPLString sName( poKMLFile_->getCurrentName() );

        if( sName.empty() )
        {
            sName.Printf( "Layer #%d", nCount );
        }

        poLayer = new OGRKMLLayer( sName.c_str(), poSRS, FALSE, poGeotype, this );

        poLayer->SetLayerNumber( nCount );

/* -------------------------------------------------------------------- */
/*      Add layer to data source layer list.                            */
/* -------------------------------------------------------------------- */
        papoLayers_[nCount] = poLayer;
    }
    
    poSRS->Release();
    
    return TRUE;	
}
Example #13
0
int OGRGTMDataSource::Open(const char* pszFilename, int bUpdate)
{
    CPLAssert( pszFilename != NULL );

    /* Should not happen as the driver already returned if bUpdate == NULL */
    if (bUpdate)
    {
        CPLError(CE_Failure, CPLE_NotSupported,
                 "GTM driver does not support opening in update mode");
        return FALSE;
    }

/* -------------------------------------------------------------------- */
/*      Create a GTM object and open the source file.                   */
/* -------------------------------------------------------------------- */
    poGTMFile = new GTM();

    if ( !poGTMFile->Open( pszFilename ) )
    {
        delete poGTMFile;
        poGTMFile = NULL;
        return FALSE;
    }

/* -------------------------------------------------------------------- */
/*      Validate it by start parsing                                    */
/* -------------------------------------------------------------------- */
    if( !poGTMFile->isValid() )
    {
        delete poGTMFile;
        poGTMFile = NULL;
        return FALSE;
    }

    pszName = CPLStrdup( pszFilename );
/* -------------------------------------------------------------------- */
/*      Now, we are able to read the file header and find the position  */
/*        of the first waypoint and the position of the first track.      */
/* -------------------------------------------------------------------- */
    if ( !poGTMFile->readHeaderNumbers() )
        return FALSE;

/* -------------------------------------------------------------------- */
/*      We can start reading the file elements                          */
/*      We are going to translate GTM features into layers              */
/* -------------------------------------------------------------------- */
    char* pszBaseFileName = CPLStrdup( CPLGetBasename(pszFilename) );
    /* We are going to create two layers, one for storing waypoints and
       another for storing tracks */
    papoLayers = (OGRGTMLayer **) CPLMalloc(sizeof(void*) * 2);

    /* Create a spatial reference for WGS8*/
    OGRSpatialReference* poSRS = new OGRSpatialReference(NULL);
    poSRS->SetWellKnownGeogCS( "WGS84" );


    /* Waypoint layer */
    size_t layerNameSize = strlen(pszBaseFileName) + sizeof("_waypoints");
    char* pszLayerName = (char*) CPLMalloc(layerNameSize);
    /* The layer name will be "<basename>_waypoints" */
    strcpy (pszLayerName, pszBaseFileName);
    CPLStrlcat (pszLayerName, "_waypoints", layerNameSize);

    /* Store the layer of waypoints */

    GTMWaypointLayer* poWaypointLayer = new GTMWaypointLayer ( pszLayerName,
                                                               poSRS,
                                                               FALSE,
                                                               this );
    papoLayers[nLayers++] = poWaypointLayer;
    CPLFree(pszLayerName);

    /* Track layer */
    layerNameSize = strlen(pszBaseFileName) + sizeof("_tracks");
    pszLayerName = (char*) CPLMalloc(layerNameSize);
    /* The layer name will be "<basename>_tracks" */
    strcpy (pszLayerName, pszBaseFileName);
    CPLStrlcat (pszLayerName, "_tracks", layerNameSize);

    CPLFree(pszBaseFileName);
    /* Store the layer of tracks */
    GTMTrackLayer* poTrackLayer = new GTMTrackLayer ( pszLayerName,
                                                      poSRS,
                                                      FALSE,
                                                      this );
    papoLayers[nLayers++] = poTrackLayer;
    CPLFree(pszLayerName);

    poSRS->Release();
    return TRUE;

}
OGRFeatureDefn * OGRCARTODBTableLayer::GetLayerDefnInternal(CPL_UNUSED json_object* poObjIn)
{
    if( poFeatureDefn != NULL )
        return poFeatureDefn;

    CPLString osCommand;
    if( poDS->IsAuthenticatedConnection() )
    {
        // Get everything !
        osCommand.Printf(
                 "SELECT a.attname, t.typname, a.attlen, "
                        "format_type(a.atttypid,a.atttypmod), "
                        "a.attnum, "
                        "a.attnotnull, "
                        "i.indisprimary, "
                        "pg_get_expr(def.adbin, c.oid) AS defaultexpr, "
                        "postgis_typmod_dims(a.atttypmod) dim, "
                        "postgis_typmod_srid(a.atttypmod) srid, "
                        "postgis_typmod_type(a.atttypmod)::text geomtyp, "
                        "srtext "
                 "FROM pg_class c "
                 "JOIN pg_attribute a ON a.attnum > 0 AND "
                                        "a.attrelid = c.oid AND c.relname = '%s' "
                 "JOIN pg_type t ON a.atttypid = t.oid "
                 "JOIN pg_namespace n ON c.relnamespace=n.oid AND n.nspname= '%s' "
                 "LEFT JOIN pg_index i ON c.oid = i.indrelid AND "
                                         "i.indisprimary = 't' AND a.attnum = ANY(i.indkey) "
                 "LEFT JOIN pg_attrdef def ON def.adrelid = c.oid AND "
                                              "def.adnum = a.attnum "
                 "LEFT JOIN spatial_ref_sys srs ON srs.srid = postgis_typmod_srid(a.atttypmod) "
                 "ORDER BY a.attnum",
                 OGRCARTODBEscapeLiteral(osName).c_str(),
                 OGRCARTODBEscapeLiteral(poDS->GetCurrentSchema()).c_str());
    }
    else if( poDS->HasOGRMetadataFunction() != FALSE )
    {
        osCommand.Printf( "SELECT * FROM ogr_table_metadata('%s', '%s')",
                          OGRCARTODBEscapeLiteral(poDS->GetCurrentSchema()).c_str(),
                          OGRCARTODBEscapeLiteral(osName).c_str() );
    }

    if( osCommand.size() )
    {
        if( !poDS->IsAuthenticatedConnection() && poDS->HasOGRMetadataFunction() < 0 )
            CPLPushErrorHandler(CPLQuietErrorHandler);
        OGRLayer* poLyr = poDS->ExecuteSQLInternal(osCommand);
        if( !poDS->IsAuthenticatedConnection() && poDS->HasOGRMetadataFunction() < 0 )
        {
            CPLPopErrorHandler();
            if( poLyr == NULL )
            {
                CPLDebug("CARTODB", "ogr_table_metadata(text, text) not available");
                CPLErrorReset();
            }
            else if( poLyr->GetLayerDefn()->GetFieldCount() != 12 )
            {
                CPLDebug("CARTODB", "ogr_table_metadata(text, text) has unexpected column count");
                poDS->ReleaseResultSet(poLyr);
                poLyr = NULL;
            }
            poDS->SetOGRMetadataFunction(poLyr != NULL);
        }
        if( poLyr )
        {
            OGRFeature* poFeat;
            while( (poFeat = poLyr->GetNextFeature()) != NULL )
            {
                if( poFeatureDefn == NULL )
                {
                    // We could do that outside of the while() loop, but
                    // by doing that here, we are somewhat robust to
                    // ogr_table_metadata() returning suddenly an empty result set
                    // for example if CDB_UserTables() no longer works
                    poFeatureDefn = new OGRFeatureDefn(osName);
                    poFeatureDefn->Reference();
                    poFeatureDefn->SetGeomType(wkbNone);
                }

                const char* pszAttname = poFeat->GetFieldAsString("attname");
                const char* pszType = poFeat->GetFieldAsString("typname");
                int nWidth = poFeat->GetFieldAsInteger("attlen");
                const char* pszFormatType = poFeat->GetFieldAsString("format_type");
                int bNotNull = poFeat->GetFieldAsInteger("attnotnull");
                int bIsPrimary = poFeat->GetFieldAsInteger("indisprimary");
                int iDefaultExpr = poLyr->GetLayerDefn()->GetFieldIndex("defaultexpr");
                const char* pszDefault = (iDefaultExpr >= 0 && poFeat->IsFieldSet(iDefaultExpr)) ?
                            poFeat->GetFieldAsString(iDefaultExpr) : NULL;

                if( bIsPrimary &&
                    (EQUAL(pszType, "int2") ||
                     EQUAL(pszType, "int4") ||
                     EQUAL(pszType, "int8") ||
                     EQUAL(pszType, "serial") ||
                     EQUAL(pszType, "bigserial")) )
                {
                    osFIDColName = pszAttname;
                }
                else if( strcmp(pszAttname, "created_at") == 0 ||
                         strcmp(pszAttname, "updated_at") == 0 ||
                         strcmp(pszAttname, "the_geom_webmercator") == 0)
                {
                    /* ignored */
                }
                else
                {
                    if( EQUAL(pszType,"geometry") )
                    {
                        int nDim = poFeat->GetFieldAsInteger("dim");
                        int nSRID = poFeat->GetFieldAsInteger("srid");
                        const char* pszGeomType = poFeat->GetFieldAsString("geomtyp");
                        const char* pszSRText = (poFeat->IsFieldSet(
                            poLyr->GetLayerDefn()->GetFieldIndex("srtext"))) ?
                                    poFeat->GetFieldAsString("srtext") : NULL;
                        OGRwkbGeometryType eType = OGRFromOGCGeomType(pszGeomType);
                        if( nDim == 3 )
                            eType = wkbSetZ(eType);
                        OGRCartoDBGeomFieldDefn *poFieldDefn =
                            new OGRCartoDBGeomFieldDefn(pszAttname, eType);
                        if( bNotNull )
                            poFieldDefn->SetNullable(FALSE);
                        OGRSpatialReference* poSRS = NULL;
                        if( pszSRText != NULL )
                        {
                            poSRS = new OGRSpatialReference();
                            char* pszTmp = (char* )pszSRText;
                            if( poSRS->importFromWkt(&pszTmp) != OGRERR_NONE )
                            {
                                delete poSRS;
                                poSRS = NULL;
                            }
                            if( poSRS != NULL )
                            {
                                poFieldDefn->SetSpatialRef(poSRS);
                                poSRS->Release();
                            }
                        }
                        poFieldDefn->nSRID = nSRID;
                        poFeatureDefn->AddGeomFieldDefn(poFieldDefn, FALSE);
                    }
                    else
                    {
                        OGRFieldDefn oField(pszAttname, OFTString);
                        if( bNotNull )
                            oField.SetNullable(FALSE);
                        OGRPGCommonLayerSetType(oField, pszType, pszFormatType, nWidth);
                        if( pszDefault )
                            OGRPGCommonLayerNormalizeDefault(&oField, pszDefault);

                        poFeatureDefn->AddFieldDefn( &oField );
                    }
                }
                delete poFeat;
            }

            poDS->ReleaseResultSet(poLyr);
        }
    }

    if( poFeatureDefn == NULL )
    {
        osBaseSQL.Printf("SELECT * FROM %s", OGRCARTODBEscapeIdentifier(osName).c_str());
        EstablishLayerDefn(osName, NULL);
        osBaseSQL = "";
    }

    if( osFIDColName.size() > 0 )
    {
        osBaseSQL = "SELECT ";
        osBaseSQL += OGRCARTODBEscapeIdentifier(osFIDColName);
    }
    for(int i=0; i<poFeatureDefn->GetGeomFieldCount(); i++)
    {
        if( osBaseSQL.size() == 0 )
            osBaseSQL = "SELECT ";
        else
            osBaseSQL += ", ";
        osBaseSQL += OGRCARTODBEscapeIdentifier(poFeatureDefn->GetGeomFieldDefn(i)->GetNameRef());
    }
    for(int i=0; i<poFeatureDefn->GetFieldCount(); i++)
    {
        if( osBaseSQL.size() == 0 )
            osBaseSQL = "SELECT ";
        else
            osBaseSQL += ", ";
        osBaseSQL += OGRCARTODBEscapeIdentifier(poFeatureDefn->GetFieldDefn(i)->GetNameRef());
    }
    if( osBaseSQL.size() == 0 )
        osBaseSQL = "SELECT *";
    osBaseSQL += " FROM ";
    osBaseSQL += OGRCARTODBEscapeIdentifier(osName);

    osSELECTWithoutWHERE = osBaseSQL;

    return poFeatureDefn;
}
Example #15
0
/** This function parses the beginning of the file to detect the fields */
void OGRJMLLayer::LoadSchema()
{
    if (bHasReadSchema)
        return;

    bHasReadSchema = true;

    oParser = OGRCreateExpatXMLParser();
    XML_SetElementHandler(oParser, ::startElementLoadSchemaCbk,
                          ::endElementLoadSchemaCbk);
    XML_SetCharacterDataHandler(oParser, ::dataHandlerCbk);
    XML_SetUserData(oParser, this);

    VSIFSeekL( fp, 0, SEEK_SET );

    char aBuf[BUFSIZ];
    int nDone = 0;
    do
    {
        nDataHandlerCounter = 0;
        const unsigned int nLen = static_cast<unsigned int>(
            VSIFReadL( aBuf, 1, sizeof(aBuf), fp ) );
        nDone = VSIFEofL(fp);
        if (XML_Parse(oParser, aBuf, nLen, nDone) == XML_STATUS_ERROR)
        {
            CPLError( CE_Failure, CPLE_AppDefined,
                      "XML parsing of JML file failed : %s at line %d, "
                      "column %d",
                      XML_ErrorString(XML_GetErrorCode(oParser)),
                      static_cast<int>(XML_GetCurrentLineNumber(oParser)),
                      static_cast<int>(XML_GetCurrentColumnNumber(oParser)) );
            bStopParsing = true;
        }
        nWithoutEventCounter ++;
    } while ( !nDone && !bStopParsing && !bSchemaFinished &&
              nWithoutEventCounter < 10 );

    XML_ParserFree(oParser);
    oParser = nullptr;

    if (nWithoutEventCounter == 10)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Too much data inside one element. File probably corrupted");
        bStopParsing = true;
    }

    if( osCollectionElement.empty() || osFeatureElement.empty() ||
        osGeometryElement.empty() )
    {
        CPLError( CE_Failure, CPLE_AppDefined,
                  "Missing CollectionElement, FeatureElement or "
                  "GeometryElement" );
        bStopParsing = true;
    }

    if( !osSRSName.empty() )
    {
        if( osSRSName.find("http://www.opengis.net/gml/srs/epsg.xml#") == 0 )
        {
            OGRSpatialReference* poSRS = new OGRSpatialReference();
            poSRS->importFromEPSG(atoi(osSRSName.substr(
                strlen("http://www.opengis.net/gml/srs/epsg.xml#")).c_str()));
            poSRS->SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
            poFeatureDefn->GetGeomFieldDefn(0)->SetSpatialRef(poSRS);
            poSRS->Release();
        }
    }

    nJCSGMLInputTemplateDepth = 0;
    nCollectionElementDepth = 0;
    nFeatureCollectionDepth = 0;
    nFeatureElementDepth = 0;
    nGeometryElementDepth = 0;
    nColumnDepth = 0;
    nNameDepth = 0;
    nTypeDepth = 0;
    nAttributeElementDepth = 0;

    ResetReading();
}