bool FeatureConnector::loadMetaData(Ilwis::IlwisObject *obj,const IOOptions& options)
{
bool ok = CoverageConnector::loadMetaData(obj, options);
if ( !ok)
return false;
FeatureCoverage *fcoverage = static_cast<FeatureCoverage *>(obj);
fcoverage->setFeatureCount(itFEATURE, iUNDEF, FeatureInfo::ALLFEATURES);
IlwisTypes coverageType = itPOINT;
int features = _odf->value("PointMap","Points").toInt(&ok);
if (!ok) {
coverageType = itPOLYGON;
features = _odf->value("PolygonMapStore","Polygons").toInt(&ok);
if (!ok) {
coverageType = itLINE;
features = _odf->value("SegmentMapStore","Segments").toInt(&ok);
}
}
if (ok){
// overwrite with the correct value from the attribute table if available (without computing it by reading the binary data!)
if (hasProperty("TableRecordCount"))
features = getProperty("TableRecordCount").toInt();
fcoverage->featureTypes(coverageType);
fcoverage->setFeatureCount(coverageType, features,0);
}
else
return ERROR2(ERR_INVALID_PROPERTY_FOR_2,"Records",obj->name());
//ITable tbl = fcoverage->attributeTable();
//tbl->recordCount(fcoverage->featureCount(itFEATURE,true));
return true;
}
bool GdalFeatureConnector::loadMetaData(Ilwis::IlwisObject *data,const IOOptions& options){
if(!CoverageConnector::loadMetaData(data, options))
return false;
FeatureCoverage *fcoverage = static_cast<FeatureCoverage *>(data);
fcoverage->setFeatureCount(itFEATURE, iUNDEF, FeatureInfo::ALLFEATURES);
OGRLayerH hLayer = getLayerHandle();
if ( hLayer) {
//feature types
IlwisTypes type = translateOGRType(gdal()->getLayerGeometry(hLayer));
if (type == itUNKNOWN){
WARN(QString("Unknown feature type of layer %1 from: %2").arg(0).arg(_filename.toString()));
}else{
fcoverage->featureTypes(type);
}
//feature counts
int temp = gdal()->getFeatureCount(hLayer, FALSE);//TRUE to FORCE databases to scan whole layer, FALSe can end up in -1 for unknown result
if (temp == -1){
WARN(QString("Couldn't determine feature count of layer %1 from meta data of %2").arg(0).arg(_filename.toString()));
}else{
int featureCount = fcoverage->featureCount(type);
featureCount += temp;
fcoverage->setFeatureCount(type, featureCount,0); // subgeometries are not known at this level
}
//attribute table
ITable attTable;
Resource resource(_filename, itFLATTABLE);
if(!attTable.prepare(resource,{"asflattable", true})) {//will load whole meta data of the table
ERROR1(ERR_NO_INITIALIZED_1,resource.name());
return false;
}
fcoverage->setAttributes(attTable);
//layer envelopes/extents
Envelope bbox;
OGREnvelope envelope;//might sometimes be supported as 3D now only posssible from OGRGeometry
OGRErr err = gdal()->getLayerExtent(hLayer, &envelope , FALSE);//TRUE to FORCE
if (err != OGRERR_NONE){
if (err == OGRERR_FAILURE){//on an empty layer or if simply too expensive(FORECE=FALSE) OGR_L_GetExtent may return OGRERR_FAILURE
WARN(QString("Couldn't determine the extent of layer %1 from meta data of %2").arg(0).arg(_filename.toString()));
}else{
ERROR0(QString("Couldn't load extent of layer %1 from %2: %3").arg(0).arg(_filename.toString()).arg(gdal()->translateOGRERR(err)));
}
}else{
bbox = Envelope(Coordinate(envelope.MinX,envelope.MinY),Coordinate(envelope.MaxX,envelope.MaxY));
}
fcoverage->envelope(bbox);
// fcoverage->coordinateSystem()->envelope(bbox);
}
gdal()->closeFile(sourceRef().toLocalFile(), data->id());
return true;
}
bool FeatureConnector::loadMetaData(Ilwis::IlwisObject *obj)
{
bool ok = CoverageConnector::loadMetaData(obj);
if ( !ok)
return false;
FeatureCoverage *fcoverage = static_cast<FeatureCoverage *>(obj);
IlwisTypes coverageType = itPOINT;
int features = _odf->value("PointMap","Points").toInt(&ok);
if (!ok) {
coverageType = itLINE;
features = _odf->value("SegmentMapStore","Segments").toInt(&ok);
if (!ok) {
coverageType = itPOLYGON;
features = _odf->value("PolygonMapStore","Polygons").toInt(&ok);
}
}
if (ok){
fcoverage->featureTypes(coverageType);
fcoverage->setFeatureCount(coverageType, features);
}
else
return ERROR2(ERR_INVALID_PROPERTY_FOR_2,"Records",obj->name());
ITable tbl = fcoverage->attributeTable();
tbl->setRows(fcoverage->featureCount());
return true;
}
bool GdalFeatureConnector::loadData(IlwisObject* data, const IOOptions &){
if(!GdalConnector::loadMetaData(data, IOOptions()))
return false;
bool ok = true;
FeatureCoverage *fcoverage = static_cast<FeatureCoverage *>(data);
if ( fcoverage->isValid() ) {
ITable attTable = fcoverage->attributeTable();
if (!attTable.isValid()){
ERROR2(ERR_NO_INITIALIZED_2,"attribute table",_filename.toString());
return false;
}
fcoverage->setFeatureCount(itFEATURE, iUNDEF, FeatureInfo::ALLFEATURES); // metadata already set it to correct number, creating new features will up the count agains; so reset to 0.
OGRLayerH hLayer = getLayerHandle();
if ( hLayer) {
GdalTableLoader loader;
attTable->dataLoaded(true); // new table, dont want any loading behaviour
loader.setColumnCallbacks(attTable.ptr(), hLayer);
std::vector<QVariant> record(attTable->columnCount());
OGRFeatureH hFeature = 0;
gdal()->resetReading(hLayer);
//each FEATURE
try {
while( (hFeature = gdal()->getNextFeature(hLayer)) != NULL){
loader.loadRecord(attTable.ptr(), hFeature, record);
geos::geom::Geometry * geometry = fillFeature(fcoverage, gdal()->getGeometryRef(hFeature));
if (geometry){
auto feature = fcoverage->newFeature(geometry, false);
feature->record(record);
}else{
ERROR1("GDAL error during load of binary data: no geometry detected for feature in %1", _filename.toString());
}
gdal()->destroyFeature( hFeature );
}
} catch (FeatureCreationError& ) {
gdal()->destroyFeature( hFeature );
ok = false;
}
}
//layer envelopes/extents
Envelope bbox;
OGREnvelope envelope;//might sometimes be supported as 3D now only posssible from OGRGeometry
OGRErr err = gdal()->getLayerExtent(hLayer, &envelope , TRUE);//TRUE to FORCE
if (err != OGRERR_NONE && fcoverage->featureCount() != 0){
ERROR0(QString("Couldn't load extent of a layer from %1 after binary was loaded: %2").arg(_filename.toString()).arg(gdal()->translateOGRERR(err)));
}else{
bbox = Envelope(Coordinate(envelope.MinX,envelope.MinY),Coordinate(envelope.MaxX,envelope.MaxY));
}
fcoverage->envelope(bbox);
}
gdal()->closeFile(sourceRef().toLocalFile(), data->id());
_binaryIsLoaded = ok;
return ok;
}