func flattenLineStrings(g *geos.Geos, geoms []*geos.Geom) []*geos.Geom { var result []*geos.Geom for _, geom := range geoms { if g.Type(geom) == "MultiLineString" { for _, part := range g.Geoms(geom) { result = append(result, g.Clone(part)) } g.Destroy(geom) } else if g.Type(geom) == "LineString" { result = append(result, geom) } else { log.Printf("unexpected geometry type in flattenPolygons") g.Destroy(geom) } } return result }
func filterGeometryByType(g *geos.Geos, geom *geos.Geom, targetType string) []*geos.Geom { // Filter (multi)geometry for compatible `geom_type`, // because we can't insert points into linestring tables for example geomType := g.Type(geom) if geomType == targetType { // same type is fine return []*geos.Geom{geom} } if geomType == "Polygon" && targetType == "MultiPolygon" { // multipolygon mappings also support polygons return []*geos.Geom{geom} } if geomType == "MultiPolygon" && targetType == "Polygon" { // polygon mappings should also support multipolygons return []*geos.Geom{geom} } if g.NumGeoms(geom) >= 1 { // GeometryCollection or MultiLineString? return list of geometries var geoms []*geos.Geom for _, part := range g.Geoms(geom) { // only parts with same type if g.Type(part) == targetType { geoms = append(geoms, g.Clone(part)) } } g.Destroy(geom) if len(geoms) != 0 { return geoms } return []*geos.Geom{} } g.Destroy(geom) return []*geos.Geom{} }