X-Git-Url: https://www.yuggoth.org/gitweb?p=weather.git;a=blobdiff_plain;f=weather.py;h=2bacc27d6e602e58a3e5db9babc7f11b0f72a5b2;hp=47870ec51273b455bf6290d0b595d2ef3e727eff;hb=49a6ebe7607034a3a51782c3e97fa8d2bf123aeb;hpb=f7fc45b44d9ce028485c9de0467c68fcf55c17a8 diff --git a/weather.py b/weather.py index 47870ec..2bacc27 100644 --- a/weather.py +++ b/weather.py @@ -1,7 +1,7 @@ """Contains various object definitions needed by the weather utility.""" weather_copyright = """\ -# Copyright (c) 2006-2012 Jeremy Stanley . Permission to +# Copyright (c) 2006-2014 Jeremy Stanley . Permission to # use, copy, modify, and distribute this software is granted under terms # provided in the LICENSE file distributed with this software. #""" @@ -1226,7 +1226,7 @@ def correlate(): %s # generated by %s on %s from these public domain sources: # -# http://www.census.gov/geo/www/gazetteer/gazetteer2010.html +# http://www.census.gov/geo/maps-data/data/gazetteer2010.html # %s %s %s # %s %s %s # %s %s %s @@ -1545,12 +1545,12 @@ def correlate(): cpfz = {} cpfzcf = open(cpfzcf_fn) for line in cpfzcf: - fields = line.split("|") + fields = line.strip().split("|") if len(fields) == 11 \ and fields[0] and fields[1] and fields[9] and fields[10]: zone = "z".join( fields[:2] ).lower() if zone in zones: - zones[zone]["centroid"] = gecos( ",".join( fields[9:] ) ) + zones[zone]["centroid"] = gecos( ",".join( fields[9:11] ) ) elif fields[6]: state = fields[0] description = fields[3] @@ -1909,6 +1909,13 @@ def correlate(): for airport in sorted( airports.keys() ): airports_fd.write("\n\n[%s]" % airport) for key, value in sorted( airports[airport].items() ): + if type(value) is float: value = "%.7f"%value + elif type(value) is tuple: + elements = [] + for element in value: + if type(element) is float: elements.append("%.7f"%element) + else: elements.append( repr(element) ) + value = "(%s)"%", ".join(elements) airports_fd.write( "\n%s = %s" % (key, value) ) count += 1 airports_fd.write("\n") @@ -1925,6 +1932,13 @@ def correlate(): for fips in sorted( places.keys() ): places_fd.write("\n\n[%s]" % fips) for key, value in sorted( places[fips].items() ): + if type(value) is float: value = "%.7f"%value + elif type(value) is tuple: + elements = [] + for element in value: + if type(element) is float: elements.append("%.7f"%element) + else: elements.append( repr(element) ) + value = "(%s)"%", ".join(elements) places_fd.write( "\n%s = %s" % (key, value) ) count += 1 places_fd.write("\n") @@ -1941,6 +1955,13 @@ def correlate(): for station in sorted( stations.keys() ): stations_fd.write("\n\n[%s]" % station) for key, value in sorted( stations[station].items() ): + if type(value) is float: value = "%.7f"%value + elif type(value) is tuple: + elements = [] + for element in value: + if type(element) is float: elements.append("%.7f"%element) + else: elements.append( repr(element) ) + value = "(%s)"%", ".join(elements) stations_fd.write( "\n%s = %s" % (key, value) ) count += 1 stations_fd.write("\n") @@ -1957,6 +1978,13 @@ def correlate(): for zcta in sorted( zctas.keys() ): zctas_fd.write("\n\n[%s]" % zcta) for key, value in sorted( zctas[zcta].items() ): + if type(value) is float: value = "%.7f"%value + elif type(value) is tuple: + elements = [] + for element in value: + if type(element) is float: elements.append("%.7f"%element) + else: elements.append( repr(element) ) + value = "(%s)"%", ".join(elements) zctas_fd.write( "\n%s = %s" % (key, value) ) count += 1 zctas_fd.write("\n") @@ -1973,6 +2001,13 @@ def correlate(): for zone in sorted( zones.keys() ): zones_fd.write("\n\n[%s]" % zone) for key, value in sorted( zones[zone].items() ): + if type(value) is float: value = "%.7f"%value + elif type(value) is tuple: + elements = [] + for element in value: + if type(element) is float: elements.append("%.7f"%element) + else: elements.append( repr(element) ) + value = "(%s)"%", ".join(elements) zones_fd.write( "\n%s = %s" % (key, value) ) count += 1 zones_fd.write("\n")