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FindAddress
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ZipRange
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MIN_ADDRESS_WORDS: int
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MAX_ADDRESS_WORDS: int
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MAX_ADDRESS_LINES: int
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kMaxAddressNameWordLength: int
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MAX_LOCATION_NAME_DISTANCE: int
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sStateZipCodeRanges: ZipRange[]
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NL: String
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SP: String
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WS: String
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WORD_DELIM: String
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WORD_END: String
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sWordRe: Pattern
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HOUSE_POST_DELIM: String
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HOUSE_END: String
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HOUSE_PRE_DELIM: String
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HOUSE_COMPONENT: String
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sHouseNumberRe: Pattern
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sStateRe: Pattern
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sLocationNameRe: Pattern
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sSuffixedNumberRe: Pattern
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sZipCodeRe: Pattern
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checkHouseNumber(String): boolean
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matchHouseNumber(String, int): MatchResult
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matchState(String, int): MatchResult
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isValidZipCode(String, MatchResult): boolean
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isValidLocationName(String): boolean
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attemptMatch(String, MatchResult): int
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findAddress(String): String
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/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.webkit;
import java.util.Locale;
import java.util.regex.MatchResult;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
Java implementation of legacy WebView.findAddress algorithm.
@hide
/**
* Java implementation of legacy WebView.findAddress algorithm.
*
* @hide
*/
class FindAddress {
static class ZipRange {
int mLow;
int mHigh;
int mException1;
int mException2;
ZipRange(int low, int high, int exception1, int exception2) {
mLow = low;
mHigh = high;
mException1 = exception1;
mException2 = exception1;
}
boolean matches(String zipCode) {
int prefix = Integer.parseInt(zipCode.substring(0, 2));
return (mLow <= prefix && prefix <= mHigh) || prefix == mException1
|| prefix == mException2;
}
}
// Addresses consist of at least this many words, not including state and zip code.
private static final int MIN_ADDRESS_WORDS = 4;
// Adddresses consist of at most this many words, not including state and zip code.
private static final int MAX_ADDRESS_WORDS = 14;
// Addresses consist of at most this many lines.
private static final int MAX_ADDRESS_LINES = 5;
// No words in an address are longer than this many characters.
private static final int kMaxAddressNameWordLength = 25;
// Location name should be in the first MAX_LOCATION_NAME_DISTANCE words
private static final int MAX_LOCATION_NAME_DISTANCE = 5;
private static final ZipRange[] sStateZipCodeRanges = {
new ZipRange(99, 99, -1, -1), // AK Alaska.
new ZipRange(35, 36, -1, -1), // AL Alabama.
new ZipRange(71, 72, -1, -1), // AR Arkansas.
new ZipRange(96, 96, -1, -1), // AS American Samoa.
new ZipRange(85, 86, -1, -1), // AZ Arizona.
new ZipRange(90, 96, -1, -1), // CA California.
new ZipRange(80, 81, -1, -1), // CO Colorado.
new ZipRange(6, 6, -1, -1), // CT Connecticut.
new ZipRange(20, 20, -1, -1), // DC District of Columbia.
new ZipRange(19, 19, -1, -1), // DE Delaware.
new ZipRange(32, 34, -1, -1), // FL Florida.
new ZipRange(96, 96, -1, -1), // FM Federated States of Micronesia.
new ZipRange(30, 31, -1, -1), // GA Georgia.
new ZipRange(96, 96, -1, -1), // GU Guam.
new ZipRange(96, 96, -1, -1), // HI Hawaii.
new ZipRange(50, 52, -1, -1), // IA Iowa.
new ZipRange(83, 83, -1, -1), // ID Idaho.
new ZipRange(60, 62, -1, -1), // IL Illinois.
new ZipRange(46, 47, -1, -1), // IN Indiana.
new ZipRange(66, 67, 73, -1), // KS Kansas.
new ZipRange(40, 42, -1, -1), // KY Kentucky.
new ZipRange(70, 71, -1, -1), // LA Louisiana.
new ZipRange(1, 2, -1, -1), // MA Massachusetts.
new ZipRange(20, 21, -1, -1), // MD Maryland.
new ZipRange(3, 4, -1, -1), // ME Maine.
new ZipRange(96, 96, -1, -1), // MH Marshall Islands.
new ZipRange(48, 49, -1, -1), // MI Michigan.
new ZipRange(55, 56, -1, -1), // MN Minnesota.
new ZipRange(63, 65, -1, -1), // MO Missouri.
new ZipRange(96, 96, -1, -1), // MP Northern Mariana Islands.
new ZipRange(38, 39, -1, -1), // MS Mississippi.
new ZipRange(55, 56, -1, -1), // MT Montana.
new ZipRange(27, 28, -1, -1), // NC North Carolina.
new ZipRange(58, 58, -1, -1), // ND North Dakota.
new ZipRange(68, 69, -1, -1), // NE Nebraska.
new ZipRange(3, 4, -1, -1), // NH New Hampshire.
new ZipRange(7, 8, -1, -1), // NJ New Jersey.
new ZipRange(87, 88, 86, -1), // NM New Mexico.
new ZipRange(88, 89, 96, -1), // NV Nevada.
new ZipRange(10, 14, 0, 6), // NY New York.
new ZipRange(43, 45, -1, -1), // OH Ohio.
new ZipRange(73, 74, -1, -1), // OK Oklahoma.
new ZipRange(97, 97, -1, -1), // OR Oregon.
new ZipRange(15, 19, -1, -1), // PA Pennsylvania.
new ZipRange(6, 6, 0, 9), // PR Puerto Rico.
new ZipRange(96, 96, -1, -1), // PW Palau.
new ZipRange(2, 2, -1, -1), // RI Rhode Island.
new ZipRange(29, 29, -1, -1), // SC South Carolina.
new ZipRange(57, 57, -1, -1), // SD South Dakota.
new ZipRange(37, 38, -1, -1), // TN Tennessee.
new ZipRange(75, 79, 87, 88), // TX Texas.
new ZipRange(84, 84, -1, -1), // UT Utah.
new ZipRange(22, 24, 20, -1), // VA Virginia.
new ZipRange(6, 9, -1, -1), // VI Virgin Islands.
new ZipRange(5, 5, -1, -1), // VT Vermont.
new ZipRange(98, 99, -1, -1), // WA Washington.
new ZipRange(53, 54, -1, -1), // WI Wisconsin.
new ZipRange(24, 26, -1, -1), // WV West Virginia.
new ZipRange(82, 83, -1, -1) // WY Wyoming.
};
// Newlines
private static final String NL = "\n\u000B\u000C\r\u0085\u2028\u2029";
// Space characters
private static final String SP = "\u0009\u0020\u00A0\u1680\u2000\u2001"
+ "\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200A\u202F"
+ "\u205F\u3000";
// Whitespace
private static final String WS = SP + NL;
// Characters that are considered word delimiters.
private static final String WORD_DELIM = ",*\u2022" + WS;
// Lookahead for word end.
private static final String WORD_END = "(?=[" + WORD_DELIM + "]|$)";
// Address words are a sequence of non-delimiter characters.
private static final Pattern sWordRe =
Pattern.compile("[^" + WORD_DELIM + "]+" + WORD_END, Pattern.CASE_INSENSITIVE);
// Characters that are considered suffix delimiters for house numbers.
private static final String HOUSE_POST_DELIM = ",\"'" + WS;
// Lookahead for house end.
private static final String HOUSE_END = "(?=[" + HOUSE_POST_DELIM + "]|$)";
// Characters that are considered prefix delimiters for house numbers.
private static final String HOUSE_PRE_DELIM = ":" + HOUSE_POST_DELIM;
// A house number component is "one" or a number, optionally
// followed by a single alphabetic character, or
private static final String HOUSE_COMPONENT = "(?:one|\\d+([a-z](?=[^a-z]|$)|st|nd|rd|th)?)";
// House numbers are a repetition of |HOUSE_COMPONENT|, separated by -, and followed by
// a delimiter character.
private static final Pattern sHouseNumberRe =
Pattern.compile(HOUSE_COMPONENT + "(?:-" + HOUSE_COMPONENT + ")*" + HOUSE_END,
Pattern.CASE_INSENSITIVE);
// XXX: do we want to accept whitespace other than 0x20 in state names?
private static final Pattern sStateRe = Pattern.compile("(?:"
+ "(ak|alaska)|"
+ "(al|alabama)|"
+ "(ar|arkansas)|"
+ "(as|american[" + SP + "]+samoa)|"
+ "(az|arizona)|"
+ "(ca|california)|"
+ "(co|colorado)|"
+ "(ct|connecticut)|"
+ "(dc|district[" + SP + "]+of[" + SP + "]+columbia)|"
+ "(de|delaware)|"
+ "(fl|florida)|"
+ "(fm|federated[" + SP + "]+states[" + SP + "]+of[" + SP + "]+micronesia)|"
+ "(ga|georgia)|"
+ "(gu|guam)|"
+ "(hi|hawaii)|"
+ "(ia|iowa)|"
+ "(id|idaho)|"
+ "(il|illinois)|"
+ "(in|indiana)|"
+ "(ks|kansas)|"
+ "(ky|kentucky)|"
+ "(la|louisiana)|"
+ "(ma|massachusetts)|"
+ "(md|maryland)|"
+ "(me|maine)|"
+ "(mh|marshall[" + SP + "]+islands)|"
+ "(mi|michigan)|"
+ "(mn|minnesota)|"
+ "(mo|missouri)|"
+ "(mp|northern[" + SP + "]+mariana[" + SP + "]+islands)|"
+ "(ms|mississippi)|"
+ "(mt|montana)|"
+ "(nc|north[" + SP + "]+carolina)|"
+ "(nd|north[" + SP + "]+dakota)|"
+ "(ne|nebraska)|"
+ "(nh|new[" + SP + "]+hampshire)|"
+ "(nj|new[" + SP + "]+jersey)|"
+ "(nm|new[" + SP + "]+mexico)|"
+ "(nv|nevada)|"
+ "(ny|new[" + SP + "]+york)|"
+ "(oh|ohio)|"
+ "(ok|oklahoma)|"
+ "(or|oregon)|"
+ "(pa|pennsylvania)|"
+ "(pr|puerto[" + SP + "]+rico)|"
+ "(pw|palau)|"
+ "(ri|rhode[" + SP + "]+island)|"
+ "(sc|south[" + SP + "]+carolina)|"
+ "(sd|south[" + SP + "]+dakota)|"
+ "(tn|tennessee)|"
+ "(tx|texas)|"
+ "(ut|utah)|"
+ "(va|virginia)|"
+ "(vi|virgin[" + SP + "]+islands)|"
+ "(vt|vermont)|"
+ "(wa|washington)|"
+ "(wi|wisconsin)|"
+ "(wv|west[" + SP + "]+virginia)|"
+ "(wy|wyoming)"
+ ")" + WORD_END,
Pattern.CASE_INSENSITIVE);
private static final Pattern sLocationNameRe = Pattern.compile("(?:"
+ "alley|annex|arcade|ave[.]?|avenue|alameda|bayou|"
+ "beach|bend|bluffs?|bottom|boulevard|branch|bridge|"
+ "brooks?|burgs?|bypass|broadway|camino|camp|canyon|"
+ "cape|causeway|centers?|circles?|cliffs?|club|common|"
+ "corners?|course|courts?|coves?|creek|crescent|crest|"
+ "crossing|crossroad|curve|circulo|dale|dam|divide|"
+ "drives?|estates?|expressway|extensions?|falls?|ferry|"
+ "fields?|flats?|fords?|forest|forges?|forks?|fort|"
+ "freeway|gardens?|gateway|glens?|greens?|groves?|"
+ "harbors?|haven|heights|highway|hills?|hollow|inlet|"
+ "islands?|isle|junctions?|keys?|knolls?|lakes?|land|"
+ "landing|lane|lights?|loaf|locks?|lodge|loop|mall|"
+ "manors?|meadows?|mews|mills?|mission|motorway|mount|"
+ "mountains?|neck|orchard|oval|overpass|parks?|"
+ "parkways?|pass|passage|path|pike|pines?|plains?|"
+ "plaza|points?|ports?|prairie|privada|radial|ramp|"
+ "ranch|rapids?|rd[.]?|rest|ridges?|river|roads?|route|"
+ "row|rue|run|shoals?|shores?|skyway|springs?|spurs?|"
+ "squares?|station|stravenue|stream|st[.]?|streets?|"
+ "summit|speedway|terrace|throughway|trace|track|"
+ "trafficway|trail|tunnel|turnpike|underpass|unions?|"
+ "valleys?|viaduct|views?|villages?|ville|vista|walks?|"
+ "wall|ways?|wells?|xing|xrd)" + WORD_END,
Pattern.CASE_INSENSITIVE);
private static final Pattern sSuffixedNumberRe =
Pattern.compile("(\\d+)(st|nd|rd|th)", Pattern.CASE_INSENSITIVE);
private static final Pattern sZipCodeRe =
Pattern.compile("(?:\\d{5}(?:-\\d{4})?)" + WORD_END, Pattern.CASE_INSENSITIVE);
private static boolean checkHouseNumber(String houseNumber) {
// Make sure that there are at most 5 digits.
int digitCount = 0;
for (int i = 0; i < houseNumber.length(); ++i) {
if (Character.isDigit(houseNumber.charAt(i))) ++digitCount;
}
if (digitCount > 5) return false;
// Make sure that any ordinals are valid.
Matcher suffixMatcher = sSuffixedNumberRe.matcher(houseNumber);
while (suffixMatcher.find()) {
int num = Integer.parseInt(suffixMatcher.group(1));
if (num == 0) {
return false; // 0th is invalid.
}
String suffix = suffixMatcher.group(2).toLowerCase(Locale.getDefault());
switch (num % 10) {
case 1:
return suffix.equals(num % 100 == 11 ? "th" : "st");
case 2:
return suffix.equals(num % 100 == 12 ? "th" : "nd");
case 3:
return suffix.equals(num % 100 == 13 ? "th" : "rd");
default:
return suffix.equals("th");
}
}
return true;
}
Attempt to match a house number beginnning at position offset
in content. The house number must be followed by a word
delimiter or the end of the string, and if offset is non-zero,
then it must also be preceded by a word delimiter.
Returns: a MatchResult if a valid house number was found.
/**
* Attempt to match a house number beginnning at position offset
* in content. The house number must be followed by a word
* delimiter or the end of the string, and if offset is non-zero,
* then it must also be preceded by a word delimiter.
*
* @return a MatchResult if a valid house number was found.
*/
private static MatchResult matchHouseNumber(String content, int offset) {
if (offset > 0 && HOUSE_PRE_DELIM.indexOf(content.charAt(offset - 1)) == -1) return null;
Matcher matcher = sHouseNumberRe.matcher(content).region(offset, content.length());
if (matcher.lookingAt()) {
MatchResult matchResult = matcher.toMatchResult();
if (checkHouseNumber(matchResult.group(0))) return matchResult;
}
return null;
}
Attempt to match a US state beginnning at position offset in
content. The matching state must be followed by a word
delimiter or the end of the string, and if offset is non-zero,
then it must also be preceded by a word delimiter.
Returns: a MatchResult if a valid US state (or two letter code)
was found.
/**
* Attempt to match a US state beginnning at position offset in
* content. The matching state must be followed by a word
* delimiter or the end of the string, and if offset is non-zero,
* then it must also be preceded by a word delimiter.
*
* @return a MatchResult if a valid US state (or two letter code)
* was found.
*/
private static MatchResult matchState(String content, int offset) {
if (offset > 0 && WORD_DELIM.indexOf(content.charAt(offset - 1)) == -1) return null;
Matcher stateMatcher = sStateRe.matcher(content).region(offset, content.length());
return stateMatcher.lookingAt() ? stateMatcher.toMatchResult() : null;
}
Test whether zipCode matches the U.S. zip code format (ddddd or
ddddd-dddd) and is within the expected range, given that
stateMatch is a match of sStateRe.
Returns: true if zipCode is a valid zip code, is legal for the
matched state, and is followed by a word delimiter or the end
of the string.
/**
* Test whether zipCode matches the U.S. zip code format (ddddd or
* ddddd-dddd) and is within the expected range, given that
* stateMatch is a match of sStateRe.
*
* @return true if zipCode is a valid zip code, is legal for the
* matched state, and is followed by a word delimiter or the end
* of the string.
*/
private static boolean isValidZipCode(String zipCode, MatchResult stateMatch) {
if (stateMatch == null) return false;
// Work out the index of the state, based on which group matched.
int stateIndex = stateMatch.groupCount();
while (stateIndex > 0) {
if (stateMatch.group(stateIndex--) != null) break;
}
return sZipCodeRe.matcher(zipCode).matches()
&& sStateZipCodeRanges[stateIndex].matches(zipCode);
}
Test whether location is one of the valid locations.
Returns: true if location starts with a valid location name
followed by a word delimiter or the end of the string.
/**
* Test whether location is one of the valid locations.
*
* @return true if location starts with a valid location name
* followed by a word delimiter or the end of the string.
*/
private static boolean isValidLocationName(String location) {
return sLocationNameRe.matcher(location).matches();
}
Attempt to match a complete address in content, starting with
houseNumberMatch.
Params: - content – The string to search.
- houseNumberMatch – A matching house number to start extending.
Returns: +ve: the end of the match
+ve: the position to restart searching for house numbers, negated.
/**
* Attempt to match a complete address in content, starting with
* houseNumberMatch.
*
* @param content The string to search.
* @param houseNumberMatch A matching house number to start extending.
* @return +ve: the end of the match
* +ve: the position to restart searching for house numbers, negated.
*/
private static int attemptMatch(String content, MatchResult houseNumberMatch) {
int restartPos = -1;
int nonZipMatch = -1;
int it = houseNumberMatch.end();
int numLines = 1;
boolean consecutiveHouseNumbers = true;
boolean foundLocationName = false;
int wordCount = 1;
String lastWord = "";
Matcher matcher = sWordRe.matcher(content);
for (; it < content.length(); lastWord = matcher.group(0), it = matcher.end()) {
if (!matcher.find(it)) {
// No more words in the input sequence.
return -content.length();
}
if (matcher.end() - matcher.start() > kMaxAddressNameWordLength) {
// Word is too long to be part of an address. Fail.
return -matcher.end();
}
// Count the number of newlines we just consumed.
while (it < matcher.start()) {
if (NL.indexOf(content.charAt(it++)) != -1) ++numLines;
}
// Consumed too many lines. Fail.
if (numLines > MAX_ADDRESS_LINES) break;
// Consumed too many words. Fail.
if (++wordCount > MAX_ADDRESS_WORDS) break;
if (matchHouseNumber(content, it) != null) {
if (consecutiveHouseNumbers && numLines > 1) {
// Last line ended with a number, and this this line starts with one.
// Restart at this number.
return -it;
}
// Remember the position of this match as the restart position.
if (restartPos == -1) restartPos = it;
continue;
}
consecutiveHouseNumbers = false;
if (isValidLocationName(matcher.group(0))) {
foundLocationName = true;
continue;
}
if (wordCount == MAX_LOCATION_NAME_DISTANCE && !foundLocationName) {
// Didn't find a location name in time. Fail.
it = matcher.end();
break;
}
if (foundLocationName && wordCount > MIN_ADDRESS_WORDS) {
// We can now attempt to match a state.
MatchResult stateMatch = matchState(content, it);
if (stateMatch != null) {
if (lastWord.equals("et") && stateMatch.group(0).equals("al")) {
// Reject "et al" as a false postitive.
it = stateMatch.end();
break;
}
// At this point we've matched a state; try to match a zip code after it.
Matcher zipMatcher = sWordRe.matcher(content);
if (zipMatcher.find(stateMatch.end())) {
if (isValidZipCode(zipMatcher.group(0), stateMatch)) {
return zipMatcher.end();
}
} else {
// The content ends with a state but no zip
// code. This is a legal match according to the
// documentation. N.B. This is equivalent to the
// original c++ implementation, which only allowed
// the zip code to be optional at the end of the
// string, which presumably is a bug. We tried
// relaxing this to work in other places but it
// caused too many false positives.
nonZipMatch = stateMatch.end();
}
}
}
}
if (nonZipMatch > 0) return nonZipMatch;
return -(restartPos > 0 ? restartPos : it);
}
Return the first matching address in content.
Params: - content – The string to search.
Returns: The first valid address, or null if no address was matched.
/**
* Return the first matching address in content.
*
* @param content The string to search.
* @return The first valid address, or null if no address was matched.
*/
static String findAddress(String content) {
Matcher houseNumberMatcher = sHouseNumberRe.matcher(content);
int start = 0;
while (houseNumberMatcher.find(start)) {
if (checkHouseNumber(houseNumberMatcher.group(0))) {
start = houseNumberMatcher.start();
int end = attemptMatch(content, houseNumberMatcher);
if (end > 0) {
return content.substring(start, end);
}
start = -end;
} else {
start = houseNumberMatcher.end();
}
}
return null;
}
}