# parse from text strings # possible use module: https://github.com/rockdoc/grabbag/wiki/CRS-WKT-Parser # also note some paramter descriptions: http://www.geoapi.org/3.0/javadoc/org/opengis/referencing/doc-files/WKT.html # and see gdal source code: http://gis.stackexchange.com/questions/129764/how-are-esri-wkt-projections-different-from-ogc-wkt-projections from . import datums from . import ellipsoids from . import parameters from . import units from . import projections from . import webscrape def from_epsg_code(code): # must go online (or look up local table) to get crs details code = str(code) proj4 = webscrape.crscode_to_string("epsg", code, "proj4") crs = from_proj4(proj4) return crs def from_esri_code(code): # must go online (or look up local table) to get crs details code = str(code) proj4 = webscrape.crscode_to_string("esri", code, "proj4") crs = from_proj4(proj4) return crs def from_sr_code(code): # must go online (or look up local table) to get crs details code = str(code) proj4 = webscrape.crscode_to_string("sr-org", code, "proj4") crs = from_proj4(proj4) return crs ##def from_esri_wkt(string): ## # parse arguments into components ## # use args to create crs ## pass ## ##def from_ogc_wkt(string): ## # parse arguments into components ## # use args to create crs ## pass ## ##def from_unknown_wkt(string): ## # detect if ogc wkt or esri wkt ## # TIPS: esri wkt datums all use "D_" before the datum name ## # then load with appropriate function ## pass def from_proj4(string): # parse arguments into components # use args to create crs # SLIGTHLY MESSY STILL, CLEANUP.. params = [] partdict = dict([part.split("=") for part in string.split() if not part.startswith("+no_defs")]) # INIT CODES...? # eg, +init=epsg code...? # DATUM # datum param is required if "+datum" in partdict: # get predefined datum def if partdict["+datum"] == "WGS84": datumdef = datums.WGS84() elif partdict["+datum"] == "NAD83": datumdef = datums.NAD83() else: datumdef = datums.Unknown() else: datumdef = datums.Unknown() # ELLIPS # ellipse param is required if "+ellps" in partdict: # get predefined ellips def if partdict["+ellps"] == "WGS84": ellipsdef = ellipsoids.WGS84() elif partdict["+ellps"] == "WGS72": ellipsdef = ellipsoids.WGS72() elif partdict["+ellps"] == "intl": ellipsdef = ellipsoids.International() elif partdict["+ellps"] == "GRS80": ellipsdef = ellipsoids.GRS80() else: raise Exception("Could not find required +ellps element") # TO WGS 84 COEFFS if "+towgs84" in partdict: coeffs = partdict["+towgs84"].split(",") datumshift = parameters.DatumShift(coeffs) # if no datum, use ellips + towgs84 params to create the correct datum # ...?? # COMBINE DATUM AND ELLIPS ## create datum and ellips param objs ellips = parameters.Ellipsoid(ellipsdef, semimaj_ax=partdict.get("+a"), inv_flat=partdict.get("+f")) if "+datum" in partdict: datum = parameters.Datum(datumdef, ellips) elif "+towgs84" in partdict: datum = parameters.Datum(datumdef, ellips, datumshift) else: datum = parameters.Datum(datumdef, ellips) # PRIME MERIDIAN # set default prime_mer = parameters.PrimeMeridian(0) # overwrite with user input if "+pm" in partdict: # for now only support longitude, later add name support from below: ## greenwich 0dE ## lisbon 9d07'54.862"W ## paris 2d20'14.025"E ## bogota 74d04'51.3"E ## madrid 3d41'16.48"W ## rome 12d27'8.4"E ## bern 7d26'22.5"E ## jakarta 106d48'27.79"E ## ferro 17d40'W ## brussels 4d22'4.71"E ## stockholm 18d3'29.8"E ## athens 23d42'58.815"E ## oslo 10d43'22.5"E prime_mer = parameters.PrimeMeridian(partdict["+pm"]) # ANGULAR UNIT ## proj4 cannot set angular unit, so just set to default metmulti = parameters.MeterMultiplier(0.017453292519943295) unittype = parameters.UnitType(units.Degree()) angunit = parameters.AngularUnit(unittype, metmulti) # GEOGCS (note, currently does not load axes) geogcs = parameters.GeogCS("Unknown", datum, prime_mer, angunit) #, twin_ax) # PROJECTION if "+proj" in partdict: # get predefined proj def if partdict["+proj"] == "robin": projdef = projections.Robinson() elif partdict["+proj"] == "omerc": projdef = projections.ObliqueMercator() elif partdict["+proj"] == "longlat": projdef = None # set geogcs axis in correct order elif partdict["+proj"] == "latlong": projdef = None # set geogcs axis in correct order # ALSO SHOULDNT EXCLUDE +proj, NEED WAY TO INCLUDE IT... # ... else: projdef = None else: raise Exception("Could not find required +proj element") if projdef: # create proj param obj proj = parameters.Projection(projdef) # CENTRAL MERIDIAN if "+lon_0" in partdict: val = partdict["+lon_0"] obj = parameters.CentralMeridian(val) params.append(obj) # FALSE EASTING if "+x_0" in partdict: val = partdict["+x_0"] obj = parameters.FalseEasting(val) params.append(obj) # FALSE NORTHING if "+y_0" in partdict: val = partdict["+y_0"] obj = parameters.FalseNorthing(val) params.append(obj) # SCALING FACTOR if "+k_0" in partdict or "+k" in partdict: if "+k_0" in partdict: val = partdict["+k_0"] elif "+k" in partdict: val = partdict["+k"] obj = parameters.ScalingFactor(val) params.append(obj) # LATITUDE ORIGIN if "+lat_0" in partdict: val = partdict["+lat_0"] obj = parameters.LatitudeOrigin(val) params.append(obj) # LATITUDE TRUE SCALE if "+lat_ts" in partdict: val = partdict["+lat_ts"] obj = parameters.LatitudeTrueScale(val) params.append(obj) # LONGITUDE CENTER if "+lonc" in partdict: val = partdict["+lonc"] obj = parameters.LongitudeCenter(val) params.append(obj) # AZIMUTH if "+alpha" in partdict: val = partdict["+alpha"] obj = parameters.Azimuth(val) params.append(obj) # STD PARALLEL 1 if "+lat1" in partdict: val = partdict["+lat1"] obj = parameters.LatitudeFirstStndParallel(val) params.append(obj) # STD PARALLEL 2 if "+lat2" in partdict: val = partdict["+lat2"] obj = parameters.LatitudeSecondStndParallel(val) params.append(obj) # UNIT ## set default metmulti = parameters.MeterMultiplier(1.0) unittype = parameters.UnitType(units.Meter()) ## override with user input if "+to_meter" in partdict: metmulti = parameters.MeterMultiplier(partdict["+to_meter"]) if "+units" in partdict: if partdict["+units"] == "m": unittype = parameters.UnitType(units.Meter()) ## create unitobj unit = parameters.Unit(unittype, metmulti) # PROJCS projcs = parameters.ProjCS("Unknown", geogcs, proj, params, unit) # CRS crs = parameters.CRS(projcs) else: crs = parameters.CRS(geogcs) # FINISHED return crs ##def from_ogc_urn(string): ## # hmmm, seems like ogc urn could be anything incl online link, epsg, etc... ## # if necessary, must go online (or lookup local table) to get details ## # maybe test which of these and run their function? ## # examples urn:ogc:def:crs:OGC:1.3:CRS1 ## # or with EPSG instead of OGC ## ## # If OGC, 1.3 is pdf version, and after that is a name from list below ## # as found in pdf: "Definition identifier URNs in OGC namespace" ## # OGC crs definitions ## # URN | CRS name | Definition reference ## # urn:ogc:def:crs:OGC:1.3:CRS1 Map CS B.2 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:CRS84 WGS 84 longitude-latitude B.3 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:CRS83 NAD83 longitude-latitude B.4 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:CRS27 NAD27 longitude-latitude B.5 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:CRS88 NAVD 88 B.6 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:AUTO42001:99:8888 Auto universal transverse mercator B.7 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:AUTO42002:99:8888 Auto transverse mercator B.8 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:AUTO42003:99:8888 Auto orthographic B.9 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:AUTO42004:99:8888 Auto equirectangular B.10 in OGC 06-042 ## # urn:ogc:def:crs:OGC:1.3:AUTO42005:99 Auto Mollweide B.11 in OGC 06-042 ## ## pass def from_unknown_text(text): """Detect type and load with appropriate function""" if string.startswith("urn:"): from_ogc_urn(string) elif string.startswith("+proj="): from_proj4(string) elif string.startswith("PROJCS["): from_unknown_wkt(string) elif string.startswith("EPSG:"): from_epsg_code(string.split(":")[1]) elif string.startswith("ESRI:"): from_esri_code(string.split(":")[1]) elif string.startswith("SR-ORG:"): from_sr_code(string.split(":")[1]) else: raise Exception("Could not detect which type of crs") ##def from_geotiff_parameters(**params): ## pass