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street2coordinates.rb
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street2coordinates.rb
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# Street2Coordinates
#
# This module takes a series of postal addresses and tries to resolve them into
# latitude/longitude coordinates.
#
# Copyright (C) 2010 Pete Warden <[email protected]>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
require 'rubygems'
require 'json'
# A horrible hack to work around my problems getting the Geocoder to install as a gem
$LOAD_PATH.unshift '../geocoder/lib'
require 'geocoder/us/database'
# Some hackiness to include the library script, even if invoked from another directory
cwd = File.expand_path(File.dirname(__FILE__))
require File.join(cwd, 'dstk_config')
require File.join(cwd, 'geodict_lib')
# Keep a singleton accessor for the geocoder object, so we don't leak resources
# Fix for https://github.com/petewarden/dstk/issues/4
$geocoder_db = nil
S2C_WHITESPACE = '(([ \t.,;]+)|^|$)'
def s2c_debug_log(message)
# printf(STDERR, "%s\n" % message)
end
# Takes an array of postal addresses as input, and looks up their locations using
# data from the US census
def street2coordinates(addresses)
if !$geocoder_db
db_file = nil
DSTKConfig::GEOCODER_DB_FILES.each do |file|
if File.exists?(file)
db_file = file
break
end
end
if !db_file
raise "street2coordinates(): Couldn't find any geocoder database files"
end
$geocoder_db = Geocoder::US::Database.new(db_file, {:debug => false})
end
default_country = guess_top_country_for_list(addresses)
output = {}
addresses.each do |address|
begin
country = guess_country_for_address(address) or default_country
if country == 'us'
info = geocode_us_address(address)
elsif country == 'uk'
info = geocode_uk_address(address)
else
info = nil
end
rescue
printf(STDERR, $!.inspect + [email protected] + "\n")
info = nil
end
output[address] = info
end
return output
end
# Looks through the list of addresses, tries to guess which country each one belongs to
# by looking for evidence like explicit country names, distinctive postal codes or
# known region or city names, and returns the most frequent for use as a default.
def guess_top_country_for_list(addresses)
country_votes = {}
addresses.each do |address|
country = guess_country_for_address(address)
if country
if !country_votes.has_key?(country)
country_votes[country] = 0
end
country_votes[country] += 1
end
end
if country_votes.length == 0
return nil
end
top_countries = country_votes.sort do |a,b| b[1]<=>a[1] end
top_country = top_countries[0][0]
top_country
end
# Looks for clues in the address that indicate which country it's in
def guess_country_for_address(address)
if looks_like_us_address(address)
return 'us'
end
if looks_like_uk_address(address)
return 'uk'
end
return nil
end
# Searches for either explicit country name, or a known state followed by a zip code
def looks_like_us_address(address)
country_names = '(U\.?S\.?A?\.?|United States|America)'
country_names_suffix_re = Regexp.new(S2C_WHITESPACE+country_names+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
if country_names_suffix_re.match(address)
return true
end
state_names_list = [
'AK',
'Alaska',
'AL',
'Alabama',
'AR',
'Arkansas',
'AZ',
'Arizona',
'CA',
'California',
'CO',
'Colorado',
'CT',
'Connecticut',
'DE',
'Delaware',
'DC',
'District of Columbia',
'FL',
'Florida',
'GA',
'Georgia',
'HI',
'Hawaii',
'ID',
'Idaho',
'IL',
'Illinois',
'IN',
'Indiana',
'IA',
'Iowa',
'KS',
'Kansas',
'KY',
'Kentucky',
'LA',
'Louisiana',
'ME',
'Maine',
'MD',
'Maryland',
'MA',
'Massachusetts',
'MI',
'Michigan',
'MN',
'Minnesota',
'MS',
'Mississippi',
'MO',
'Missouri',
'MT',
'Montana',
'NE',
'Nebraska',
'NV',
'Nevada',
'NH',
'New Hamp(shire)?',
'NJ',
'New Jersey',
'NM',
'New Mexico',
'NY',
'New York',
'NC',
'North Carolina',
'ND',
'North Dakota',
'OH',
'Ohio',
'OK',
'Oklahoma',
'OR',
'Oregon',
'PA',
'Pennsylvania',
'RI',
'Rhode Island',
'SC',
'South Carolina',
'SD',
'South Dakota',
'TN',
'Tennessee',
'TX',
'Texas',
'UT',
'Utah',
'VT',
'Vermont',
'VA',
'Virginia',
'WA',
'Washington',
'WV',
'West Virginia',
'WI',
'Wisconsin',
'WY',
'Wyoming',
]
state_names = '('+state_names_list.join('|')+')'
zip_code = '\d\d\d\d\d(-\d\d\d\d)?'
state_zip_suffix_re = Regexp.new(S2C_WHITESPACE+state_names+'('+S2C_WHITESPACE+zip_code+')?'+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
if state_zip_suffix_re.match(address)
return true
end
return false
end
# Looks for a country name, county name, or something that looks like a post code
def looks_like_uk_address(address)
country_names = '(U\.?K\.?|United Kingdom|Great Britain|England|Scotland|Wales)'
country_names_suffix_re = Regexp.new(S2C_WHITESPACE+country_names+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
if country_names_suffix_re.match(address)
return true
end
county_names_list = [
'aberdeen(shire)?',
'abertawe',
'angus',
'argyll and bute',
'ayr(shire)?',
'barnsley',
'bedford',
'bedford(shire)?',
'berk(shire)?',
'birmingham',
'blackpool',
'blaenau gwent',
'bolton',
'bournemouth',
'bracknell forest',
'bradford',
'bridgend',
'brighton and hove',
'bristol',
'bro morgannwg',
'buckingham(shire)?',
'bury',
'caerdydd',
'caerffili',
'caerphilly',
'calderdale',
'cambridge(shire)?',
'cardiff',
'carmarthen(shire)?',
'casnewydd',
'castell-nedd port talbot',
'central bedford(shire)?',
'ceredigion',
'che(shire)?',
'clackmannan(shire)?',
'conwy',
'cornwall',
'county durham',
'coventry',
'cumbria',
'darlington',
'denbigh(shire)?',
'derby',
'derby(shire)?',
'devon',
'doncaster',
'dorset',
'dudley',
'dumfries and galloway',
'dunbarton(shire)?',
'dundee city',
'durham',
'edinburgh',
'eilean siar',
'essex',
'falkirk',
'fife',
'flint(shire)?',
'gateshead',
'glasgow',
'gloucester(shire)?',
'greater manchester',
'gwynedd',
'halton',
'hamp(shire)?',
'hartlepool',
'hereford(shire)?',
'hertford(shire)?',
'highland',
'inverclyde',
'isle of anglesey',
'isle of wight',
'isles of scilly',
'kent',
'kingston upon hull',
'kirklees',
'knowsley',
'lanark(shire)?',
'lanca(shire)?',
'leeds',
'leicester',
'leicester(shire)?',
'lincoln(shire)?',
'liverpool',
'london',
'lothian',
'luton',
'manchester',
'medway',
'merseyside',
'merthyr tudful',
'merthyr tydfil',
'middlesbrough',
'midlands',
'midlothian',
'milton keynes',
'monmouth(shire)?',
'moray',
'na h-eileanan an iar',
'neath port talbot',
'newcastle upon tyne',
'newport',
'norfolk',
'northampton(shire)?',
'northumberland',
'nottingham',
'nottingham(shire)?',
'oldham',
'orkney islands',
'oxford(shire)?',
'pembroke(shire)?',
'pen-y-bont ar ogwr',
'perth and kinross',
'peterborough',
'plymouth',
'poole',
'portsmouth',
'powys',
'reading',
'redcar and cleveland',
'renfrew(shire)?',
'rhondda cynon taff?',
'rochdale',
'rotherham',
'rutland',
'salford',
'sandwell',
'scottish borders',
'sefton',
'sheffield',
'shetland islands',
'shrop(shire)?',
'sir benfro',
'sir ceredigion',
'sir ddinbych',
'sir fynwy',
'sir gaerfyrddin',
'sir y fflint',
'sir ynys mon',
'slough',
'solihull',
'somerset',
'southampton',
'southend-on-sea',
'st helens',
'stafford(shire)?',
'stirling',
'stockport',
'stockton-on-tees',
'stoke-on-trent',
'suffolk',
'sunderland',
'surrey',
'sussex',
'swansea',
'swindon',
'tameside',
'telford and wrekin',
'thurrock',
'tor-faen',
'torbay',
'torfaen',
'trafford',
'tyne and wear',
'tyneside',
'vale of glamorgan',
'wakefield',
'walsall',
'warrington',
'warwick(shire)?',
'wigan',
'wilt(shire)?',
'windsor and maidenhead',
'wirral',
'wokingham',
'wolverhampton',
'worcester(shire)?',
'wrecsam',
'wrexham',
'york',
'york(shire)?',
]
county_names = '('+county_names_list.join('|')+')'
county_suffix_re = Regexp.new(S2C_WHITESPACE+county_names+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
if county_suffix_re.match(address)
return true
end
post_code = '[A-Z][A-Z]?[0-9R][0-9A-Z]? ?[0-9][A-Z]{2}'
post_code_suffix_re = Regexp.new(S2C_WHITESPACE+post_code+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
if post_code_suffix_re.match(address)
return true
end
return false
end
# Does the actual conversion of the US address string into coordinates
def geocode_us_address(address)
country_names = '(U\.?S\.?A?\.?|United States|America)'
country_names_suffix_re = Regexp.new(S2C_WHITESPACE+country_names+S2C_WHITESPACE+'?$', Regexp::IGNORECASE)
countryless_address = address.gsub(country_names_suffix_re, '')
locations = $geocoder_db.geocode(countryless_address, true)
if locations and locations.length>0
location = locations[0]
if location[:number] and location[:street]
street_address = location[:number]+' '+location[:street]
else
street_address = ''
end
info = {
:latitude => location[:lat],
:longitude => location[:lon],
:country_code => 'US',
:country_code3 => 'USA',
:country_name => 'United States',
:region => location[:state],
:locality => location[:city],
:street_address => street_address,
:street_number => location[:number],
:street_name => location[:street],
:confidence => location[:score],
:fips_county => location[:fips_county]
}
else
info = nil
end
info
end
# Does the actual conversion of the UK address string into coordinates
def geocode_uk_address(address)
whitespace_re = Regexp.new(S2C_WHITESPACE)
clean_address = address.gsub(whitespace_re, ' ')
s2c_debug_log("clean_address='%s'" % clean_address.inspect)
post_code_re = Regexp.new('( |^)([A-Z][A-Z]?[0-9R][0-9A-Z]?) ?([0-9][A-Z]{2})( |$)', Regexp::IGNORECASE)
s2c_debug_log("post_code_re='%s'" % post_code_re.inspect)
post_code_match = post_code_re.match(clean_address)
s2c_debug_log("post_code_match='%s'" % post_code_match.inspect)
if post_code_match
clean_address = clean_address[0..post_code_match.begin(0)]
# Right-pad it with spaces to match the database format
first_part = post_code_match[2].to_s.ljust(4, ' ')
second_part = post_code_match[3].to_s
full_post_code = first_part+second_part
post_code_select = 'SELECT postcode,country_code,county_code,district_code,ward_code'+
',ST_Y(location::geometry) as latitude, ST_X(location::geometry) AS longitude'+
' FROM "uk_postcodes" WHERE postcode=\''+full_post_code+'\' LIMIT 1;'
s2c_debug_log("post_code_select='%s'" % post_code_select)
post_code_hashes = select_as_hashes(post_code_select, DSTKConfig::REVERSE_GEO_DATABASE)
s2c_debug_log("post_code_hashes='%s'" % post_code_hashes.inspect)
if post_code_hashes and post_code_hashes.length>0
post_code_info = post_code_hashes[0]
district_code = post_code_info['county_code']+post_code_info['district_code']
district_select = 'SELECT * FROM uk_district_names WHERE district_code=\''+district_code+'\';'
s2c_debug_log("district_select='%s'" % district_select.inspect)
district_hashes = select_as_hashes(district_select, DSTKConfig::REVERSE_GEO_DATABASE)
s2c_debug_log("district_hashes='%s'" % district_hashes.inspect)
district_info = district_hashes[0]
district_name = district_info['name']
ward_code = district_code+post_code_info['ward_code']
ward_select = 'SELECT * FROM uk_ward_names WHERE ward_code=\''+ward_code+'\';'
s2c_debug_log("ward_select='%s'" % ward_select.inspect)
ward_hashes = select_as_hashes(ward_select, DSTKConfig::REVERSE_GEO_DATABASE)
s2c_debug_log("ward_hashes='%s'" % ward_hashes.inspect)
ward_info = ward_hashes[0]
ward_name = ward_info['name']
info = {
:latitude => post_code_info['latitude'],
:longitude => post_code_info['longitude'],
:country_code => 'UK',
:country_code3 => 'GBR',
:country_name => 'United Kingdom',
:region => district_name,
:locality => ward_name,
:street_address => nil,
:street_number => nil,
:street_name => nil,
:confidence => 9,
:fips_county => nil
}
s2c_debug_log("Updating info to '%s' for '%s'" % [info.inspect, full_post_code])
end
end
clean_address.gsub!(/ (U\.?K\.?|United Kingdom|Great Britain|England|Scotland|Wales) *$/i, '')
s2c_debug_log("clean_address='%s'" % clean_address.inspect)
# See if we can break up the address into obvious street and other sections
street_markers_list = [
'Way',
'Street',
'St',
'Drive',
'Dr',
'Avenue',
'Ave',
'Av',
'Court',
'Ct',
'Terrace',
'Road',
'Rd',
'Lane',
'Ln',
'Place',
'Pl',
'Boulevard',
'Blvd',
'Highway',
'Hwy',
'Crescent',
'Row',
'Rw',
'Mews',
]
street_marker = '('+street_markers_list.join('|')+')'
street_parts_re = Regexp.new('^(.*[a-z]+.*'+street_marker+')(.*)', Regexp::IGNORECASE)
street_parts_match = street_parts_re.match(clean_address)
s2c_debug_log("street_parts_match='%s'" % street_parts_match.inspect)
if street_parts_match
street_string = street_parts_match[1]
place_string = street_parts_match[3]
else
street_string = nil
place_string = clean_address
end
# Now try to extract the village/town/county parts
# See http://wiki.openstreetmap.org/wiki/Key:place
place_ranking = {
'county' => 0,
'island' => 1,
'city' => 2,
'town' => 3,
'suburb' => 4,
'village' => 5,
'hamlet' => 6,
'isolated_dwelling' => 6,
'locality' => 6,
'islet' => 6,
'farm' => 6,
}
place_parts = place_string.strip.split(' ').reverse
unrecognized_parts = []
s2c_debug_log("place_parts='%s'" % place_parts.inspect)
parts_count = [place_parts.length, 4].min
while place_parts.length > 0 do
if parts_count < 1
unrecognized_token = place_parts.shift(1)
s2c_debug_log("unrecognized_token '%s'" % unrecognized_token)
unrecognized_parts.push(unrecognized_token)
parts_count = [place_parts.length, 4].min
end
candidate_name = place_parts[0..(parts_count-1)].reverse.join(' ')
parts_count -= 1
s2c_debug_log("candidate_name='%s'" % candidate_name)
s2c_debug_log("parts_count='%d'" % parts_count)
location_select = 'SELECT name,place'+
',ST_Y(way::geometry) as latitude, ST_X(way::geometry) AS longitude'+
' FROM "uk_osm_point" WHERE lower(name)=lower(\''+candidate_name+'\');'
s2c_debug_log("location_select='%s'" % location_select.inspect)
location_hashes = select_as_hashes(location_select, DSTKConfig::REVERSE_GEO_DATABASE)
if !location_hashes or location_hashes.length == 0
s2c_debug_log("No matches found for '%s'" % candidate_name)
next
end
# Rank the results either by the size of the area they represent, or their distance
# from other identified parts of the address if any have been found
candidate_hashes = []
location_hashes.each do |location_hash|
place = location_hash['place']
# If we don't recognize this place type, skip it
if !place_ranking.has_key?(place)
s2c_debug_log("Unknown place '%s' found for '%s'" % [place, candidate_name])
next
end
candidate_confidence = place_ranking[place]
# We've already found a place, so use that as a reference
if info
# Get an approximate distance measure. This is pretty distorted, but workable
# as a scoring mechanism
delta_lat = info[:latitude].to_f-location_hash['latitude'].to_f
delta_lon = info[:longitude].to_f-location_hash['longitude'].to_f
score = (delta_lat*delta_lat) + (delta_lon*delta_lon)
else
score = place_ranking[place]
end
candidate_hashes.push({
:name => location_hash['name'],
:latitude => location_hash['latitude'],
:longitude => location_hash['longitude'],
:place => place,
:score => score,
:confidence => candidate_confidence,
})
end
# No valid locations with valid place types were found, so move along
if candidate_hashes.length == 0
s2c_debug_log("No valid matches found for '%s'" % candidate_name)
next
end
sorted_candidates = candidate_hashes.sort do |a,b| a[:score]<=>b[:score] end
top_candidate = sorted_candidates[0]
# Now try to update what we know with the new information
if !info
info = {
:latitude => nil,
:longitude => nil,
:country_code => 'UK',
:country_code3 => 'GBR',
:country_name => 'United Kingdom',
:region => nil,
:locality => nil,
:street_address => nil,
:street_number => nil,
:street_name => nil,
:confidence => -1,
:fips_county => nil
}
end
old_confidence = info[:confidence]
candidate_confidence = top_candidate[:confidence]
if candidate_confidence > old_confidence
info[:latitude] = top_candidate[:latitude]
info[:longitude] = top_candidate[:longitude]
info[:confidence] = candidate_confidence
name = top_candidate[:name]
place = top_candidate[:place]
if place == 'county'
info[:region] = name
else
info[:locality] = name
end
s2c_debug_log("Updating info to '%s' for '%s'" % [info.inspect, candidate_name])
end
# Remove the matched parts, and start matching anew on the remainder
place_parts.shift(parts_count+1)
parts_count = [place_parts.length, 4].min
unrecognized_parts = []
end
unrecognized_prefix = unrecognized_parts.reverse.join(' ')
s2c_debug_log("unrecognized_prefix='%s'" % unrecognized_prefix)
if !street_string
street_string = unrecognized_prefix.strip
end
# If we found a general location, see if we can narrow it down using the street
if info and street_string and street_string.length > 0
street_string = canonicalize_street_string(street_string)
street_parts = street_string.strip.split(' ').reverse
s2c_debug_log("street_parts='%s'" % street_parts.inspect)
parts_count = [street_parts.length, 4].min
while street_parts.length > 0 do
if parts_count < 1
unrecognized_token = street_parts.shift(1)
s2c_debug_log("unrecognized_token '%s'" % unrecognized_token)
parts_count = [street_parts.length, 4].min
end
candidate_name = street_parts[0..(parts_count-1)].reverse.join(' ')
parts_count -= 1
s2c_debug_log("candidate_name='%s'" % candidate_name)
s2c_debug_log("parts_count='%d'" % parts_count)
point_string = 'setsrid(makepoint('+PGconn.escape(info[:longitude])+', '+PGconn.escape(info[:latitude])+'), 4326)'
distance = 0.1
road_select = 'SELECT name'+
',ST_Y(ST_line_interpolate_point(way,ST_line_locate_point(way,'+point_string+'))::geometry) AS latitude,'+
' ST_X(ST_line_interpolate_point(way,ST_line_locate_point(way,'+point_string+'))::geometry) AS longitude'+
' FROM "uk_osm_line" WHERE lower(name)=lower(\''+candidate_name+'\')'+
' AND ST_DWithin('+
point_string+
', way, '+
distance.to_s+
') ORDER BY ST_Distance('+
point_string+
', way) LIMIT 1;'
s2c_debug_log("road_select='%s'" % road_select.inspect)
road_hashes = select_as_hashes(road_select, DSTKConfig::REVERSE_GEO_DATABASE)
if !road_hashes or road_hashes.length == 0
s2c_debug_log("No matches found for '%s'" % candidate_name)
next
end
top_candidate = road_hashes[0]
info[:latitude] = top_candidate['latitude']
info[:longitude] = top_candidate['longitude']
info[:confidence] = [info[:confidence], 8].max
info[:street_name] = top_candidate['name']
# Remove the matched parts
street_parts.shift(parts_count+1)
unrecognized_street = street_parts.reverse.join(' ')
street_number = /\d+[a-z]?/i.match(unrecognized_street)
if street_number
info[:street_number] = street_number.to_s
info[:street_address] = info[:street_number]+' '+info[:street_name]
end
s2c_debug_log("Updating info to '%s' for '%s'" % [info.inspect, candidate_name])
# We've found a street, so stop looking
break
end
s2c_debug_log("unrecognized_street='%s'" % unrecognized_street)
end
info
end
def canonicalize_street_string(street_string)
output = street_string
abbreviation_mappings = {
'Street' => ['St'],
'Drive' => ['Dr'],
'Avenue' => ['Ave', 'Av'],
'Court' => ['Ct'],
'Road' => ['Rd'],
'Lane' => ['Ln'],
'Place' => ['Pl'],
'Boulevard' => ['Blvd'],
'Highway' => ['Hwy'],
'Row' => ['Rw'],
}
abbreviation_mappings.each do |canonical, abbreviations|
abbreviations_re = Regexp.new('^(.*[a-z]+.*)('+abbreviations.join('|')+')([^a-z]*)$', Regexp::IGNORECASE)
output.gsub!(abbreviations_re, '\1'+canonical+'\3')
end
output
end
if __FILE__ == $0
test_text = <<-TEXT
2543 Graystone Place, Simi Valley, CA 93065
11 Meadow Lane, Over, Cambridge CB24 5NF
400 Duboce Ave, San Francisco, CA 94117
TEXT
test_text.each_line do |line|
output = street2coordinates(line)
puts line
if output
puts JSON.pretty_generate(output)
end
puts '************'
end
end