Mercurial > dive4elements > river
view backend/contrib/shpimporter/importer.py @ 9790:75dc4ea60938 3.2.x
Drop using explicit container names
Compose will generate names for the containers and containers can connect
each other on the network via the service names. This avoids the
unnecessary extra "name space" and prepares the application for usage
with different project names.
author | Tom Gottfried <tom@intevation.de> |
---|---|
date | Thu, 20 Jul 2023 10:25:59 +0200 |
parents | 5aa05a7a34b7 |
children |
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try: from osgeo import ogr, osr except ImportError: import ogr, osr import utils import re import logging logger = logging.getLogger("importer") class Importer: def __init__(self, river_id, dbconn, dry_run): self.river_id = river_id self.dbconn = dbconn self.dry_run = dry_run self.dest_srs = osr.SpatialReference() self.dest_srs.ImportFromEPSG(31467) self.handled_fields = [] self.tracking_import = False self.srcLayer = None def getKind(self, path): raise NotImplementedError("Importer.getKind is abstract!") def getPath(self, base): raise NotImplementedError("Importer.getPath is abstract!") def getTablename(self): raise NotImplementedError("Importer.getTablename is abstract!") def getName(self): raise NotImplementedError("Importer.getName is abstract!") def isGeometryValid(self, geomType): raise NotImplementedError("Importer.isGeometryValid is abstract!") def createNewFeature(self, featureDef, feat, **args): raise NotImplementedError("Importer.createNewFeature is abstract!") def IsFieldSet(self, feat, name): if not name: return False if feat.GetFieldIndex(name) == -1: return False # Avoids an Error in IsFieldSet return feat.IsFieldSet(feat.GetFieldIndex(name)) def searchValue(self, feat, regex): """ Searches for a value that matches regex in all attribute fields of a feature. @returns the name of the field where a match was found or None """ for val in feat.items(): if not isinstance(feat.items()[val], basestring): continue match = re.match(regex, feat.items()[val], re.IGNORECASE) if match: return val def searchField(self, regex): """ Searches for a field in the current src layer that matches the expression regex. Throws an exception if more than one field matches @param feat: The feature to search for attributes @param regex: The regex to look for @returns: The field name as a string """ if not hasattr(self.srcLayer, "fieldnames"): self.srcLayer.fieldnames = [] for i in range(0, self.srcLayer.GetLayerDefn().GetFieldCount()): self.srcLayer.fieldnames.append( self.srcLayer.GetLayerDefn().GetFieldDefn(i).GetNameRef()) result = None for name in self.srcLayer.fieldnames: match = re.match(regex, name, re.IGNORECASE) if match: if result: raise Exception("More than one field matches: %s" % regex) else: result = match.group(0) return result def IsDoubleFieldSet(self, feat, name): if not self.IsFieldSet(feat, name): return False try: isset = feat.GetFieldAsDouble(name) return isset is not None except: return False def isShapeRelevant(self, name, path): return True def walkOverShapes(self, shape): (name, path) = shape shp = ogr.Open(shape[1]) if shp is None: logger.error("Shapefile '%s' could not be opened!" % path) return if not self.isShapeRelevant(name, path): logger.info("Skip shapefile: '%s' of Type: %s" % (path, utils.getWkbString(shp.GetLayerByName(name).GetGeomType()))) return logger.info("Processing shapefile '%s'" % path) srcLayer = shp.GetLayerByName(name) if srcLayer is None: logger.error("Layer '%s' was not found!" % name) return return self.shape2Database(srcLayer, name, path) def transform(self, feat): geometry = feat.GetGeometryRef() src_srs = geometry.GetSpatialReference() if src_srs is None: logger.error("No source SRS given! No transformation possible!") return feat transformer = osr.CoordinateTransformation(src_srs, self.dest_srs) if geometry.Transform(transformer): return None return feat def handled(self, field): """ Register a field or a map of as handled during the import. There is a warning printed after the import for each unhandled field! """ if not field in self.handled_fields: self.handled_fields.append(field) def copyFields(self, src, target, mapping): """ Checks the mapping dictonary for key value pairs to copy from the source to the destination feature. The keys can be reguar expressions that are matched agains the source fieldnames The Key is the attribute of the source feature to be copied into the target attribute named by the dict's value. """ self.tracking_import = True for key, value in mapping.items(): realname = self.searchField(key) if realname == None: continue if not realname in self.handled_fields: self.handled_fields.append(realname) # 0 OFTInteger, Simple 32bit integer # 1 OFTIntegerList, List of 32bit integers # 2 OFTReal, Double Precision floating point # 3 OFTRealList, List of doubles # 4 OFTString, String of ASCII chars # 5 OFTStringList, Array of strings # 6 OFTWideString, deprecated # 7 OFTWideStringList, deprecated # 8 OFTBinary, Raw Binary data # 9 OFTDate, Date # 10 OFTTime, Time # 11 OFTDateTime, Date and Time if src.IsFieldSet(src.GetFieldIndex(realname)): if src.GetFieldType(realname) == 2: target.SetField(value, src.GetFieldAsDouble(realname)) else: target.SetField(value, utils.getUTF8(src.GetField(realname))) def shape2Database(self, srcLayer, name, path): destLayer = self.dbconn.GetLayerByName(self.getTablename()) if srcLayer is None: logger.error("Shapefile is None!") return -1 if destLayer is None: logger.error("No destination layer given!") return -1 count = srcLayer.GetFeatureCount() logger.debug("Try to add %i features to database." % count) srcLayer.ResetReading() self.srcLayer = srcLayer geomType = -1 success = 0 unsupported = {} creationFailed = 0 featureDef = destLayer.GetLayerDefn() for feat in srcLayer: geom = feat.GetGeometryRef() if geom is None: logger.debug("Unkown Geometry reference for feature") continue geomType = geom.GetGeometryType() if self.isGeometryValid(geomType): newFeat = self.createNewFeature(featureDef, feat, name=utils.getUTF8(name), path=path) if newFeat is not None: newFeat.SetField("path", utils.getUTF8Path(path)) newFeat = self.transform(newFeat) if newFeat: res = destLayer.CreateFeature(newFeat) if res is None or res > 0: logger.error("Unable to insert feature. Error: %r" % res) else: success = success + 1 else: logger.error("Could not transform feature: %s " % feat.GetFID()) creationFailed += 1 else: creationFailed = creationFailed + 1 else: unsupported[utils.getWkbString(geomType)] = \ unsupported.get(utils.getWkbString(geomType), 0) + 1 logger.info("Inserted %i features" % success) logger.info("Failed to create %i features" % creationFailed) for key, value in unsupported.items(): logger.info("Found %i unsupported features of type: %s" % (value, key)) if self.tracking_import: unhandled = [] for i in range(0, srcLayer.GetLayerDefn().GetFieldCount()): act_field = srcLayer.GetLayerDefn().GetFieldDefn(i).GetNameRef() if not act_field in self.handled_fields: unhandled.append(act_field) if len(unhandled): logger.info("Did not import values from fields: %s " % \ " ".join(unhandled)) try: if self.dry_run: return geomType destLayer.CommitTransaction() except: logger.error("Exception while committing transaction.") return geomType