Mercurial > dive4elements > river
view backend/contrib/shpimporter/hws.py @ 9751:308a0d822d18 3.2.x
Keep configuration and data in distinct directories
This allows having distinct volumes for configuration and data
(artifact database, generated mapfiles and shapefiles, etc.).
While at it, cleanup MapServer configuration a little bit.
author | Tom Gottfried <tom@intevation.de> |
---|---|
date | Tue, 11 Oct 2022 11:42:09 +0200 |
parents | aef987124822 |
children |
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# -*- coding: utf-8 -*- try: from osgeo import ogr except ImportError: import ogr from importer import Importer import utils import logging logger = logging.getLogger("HWS") PATH="Hydrologie/HW-Schutzanlagen" NAME="HWS" # Keep in sync with hws_kinds table: # strings need to be lowercase HWS_KIND = { "durchlass" : 1, "damm" : 2, "deich" : 2, "hochufer" : 2, "graben" : 3, "rohr1" : 1, "rohr 1" : 1, "rohr 2" : 1, "hauptdeich" : 2, "sommerdeich" : 2 } # Keep in sync with fed_states table: # strings need to be lowercase FED_STATES = { "bayern" : 1, "hessen" : 2, "niedersachsen" : 3, "nordrhein-westfalen" : 4, "nordrhein westfalen" : 4, "rheinland-pfalz" : 5, "rheinland pfalz" : 5, "saarland" : 6, "schleswig-holstein" : 7, "schleswig holstein" : 7, "brandenburg" : 8, "mecklenburg-vorpommern" : 9, "mecklenburg vorpommern" : 9, "thüringen" : 10, "baden-württemberg" : 11, "baden württemberg" : 11, "sachsen-anhalt" : 12, "sachsen anhalt" : 12, "sachsen" : 13, "berlin" : 14, "bremen" : 15, "hamburg" : 16, } class HWSPoints(Importer): fieldmap = { "name$" : "name", "quelle$" : "source", "anmerkung$" : "description", "stand$" : "status_date", "verband$" : "agency", "Deich_{0,1}KM$" : "dike_km", "Bereich$" : "range", "H[oeö]{0,2}he_{0,1}SOLL$" : "z_target", "(WSP_){0,1}BfG_{0,1}100$" : "rated_level", "H[oeö]{0,2}he_{0,1}IST$" : "z", } printedforpath=[] def getPath(self, base): return "%s/%s" % (base, PATH) def getTablename(self): return "hws_points" def getName(self): return "HWS_POINTS" def isGeometryValid(self, geomType): return geomType == ogr.wkbPoint or geomType == ogr.wkbPoint25D def isShapeRelevant(self, name, path): shp = ogr.Open(path) return self.isGeometryValid(shp.GetLayerByName(name).GetGeomType()) def getFedStateIDfromPath(self, path): """ Tries to get extract a bundesland from the path """ for state in sorted(FED_STATES.keys(), key = len, reverse = True): if state in path.lower(): if not path in self.printedforpath: logger.info("Extracted federal state from path: %s" % state) self.printedforpath.append(path) return FED_STATES[state] def createNewFeature(self, featureDef, feat, **args): newFeat = ogr.Feature(featureDef) geometry = feat.GetGeometryRef() geometry.SetCoordinateDimension(2) self.copyFields(feat, newFeat, self.fieldmap) newFeat.SetGeometry(geometry) artname = self.searchField("art$") if self.IsFieldSet(feat, artname): self.handled(artname) kind_id = HWS_KIND.get(feat.GetField(artname).lower()) if not kind_id: logger.warn("Unknown Art: %s" % \ feat.GetField(artname)) newFeat.SetField("kind_id", 2) else: newFeat.SetField("kind_id", kind_id) else: newFeat.SetField("kind_id", 2) fname = self.searchField("Bundesland$") if self.IsFieldSet(feat, fname): self.handled(fname) fed_id = FED_STATES.get(feat.GetField(fname).lower()) if not fed_id: logger.warn("Unknown Bundesland: %s" % \ feat.GetField(fname)) else: newFeat.SetField("fed_state_id", fed_id) else: # Try to get the bundesland from path fed_id = self.getFedStateIDfromPath(args['path']) if fed_id: newFeat.SetField("fed_state_id", fed_id) fname = self.searchField("(ufer$)|(flussseite$)") if self.IsFieldSet(feat, fname): self.handled(fname) shoreString = feat.GetField(fname) if "links" in shoreString.lower(): newFeat.SetField("shore_side", True) elif "rechts" in shoreString.lower(): newFeat.SetField("shore_side", False) fname = self.searchField("river_{0,1}id$") if self.IsFieldSet(feat, fname): self.handled(fname) if feat.GetField(fname) != self.river_id: logger.warn("River_id mismatch between shapefile and" " importer parameter.") newFeat.SetField("river_id", feat.GetField(fname)) else: newFeat.SetField("river_id", self.river_id) fname = self.searchField("name$") if not self.IsFieldSet(feat, fname): newFeat.SetField("name", args['name']) official = False fname = self.searchField("offiziell$") if self.IsFieldSet(feat, fname): self.handled(fname) offiziell = feat.GetField(fname) if offiziell == "1" or offiziell == 1: official = True # Set the official value based on the file name as a fallback elif args.get("name", "").lower() == "rohre_und_sperren" or \ args.get("name", "").lower() == "rohre-und-sperren": official = True newFeat.SetField("official", official) if self.IsFieldSet(newFeat, "z") and \ self.IsFieldSet(newFeat, "rated_level"): fname = self.searchField("freibord(_m){0,1}$") self.handled(fname) z = newFeat.GetFieldAsDouble("z") rl = newFeat.GetFieldAsDouble("rated_level") newFeat.SetField("freeboard", z - rl) return newFeat class HWSLines(HWSPoints): # TODO: GEOM_target, GEOM_rated_level, dike_km_from, dike_km_to fieldmap = { "name$" : "name", "quelle$" : "source", "anmerkung$" : "description", "stand$" : "status_date", "verband$" : "agency", "Bereich$" : "range", } def getPath(self, base): return "%s/%s" % (base, PATH) def getTablename(self): return "hws_lines" def getName(self): return "HWS_LINES" def isGeometryValid(self, geomType): return geomType in [ogr.wkbLineString, ogr.wkbLineString25D, ogr.wkbMultiLineString25D, ogr.wkbMultiLineString] def isShapeRelevant(self, name, path): shp = ogr.Open(path) return self.isGeometryValid(shp.GetLayerByName(name).GetGeomType()) def createNewFeature(self, featureDef, feat, **args): newFeat = HWSPoints.createNewFeature(self, featureDef, feat, **args) geometry = feat.GetGeometryRef() if geometry.GetCoordinateDimension() == 2: geometry.SetCoordinateDimension(3) for i in range(0, geometry.GetPointCount()): x,y,z = geometry.GetPoint(i) z = 9999 geometry.SetPoint(i, x, y, z) newFeat.SetGeometry(geometry) return utils.convertToMultiLine(newFeat)