1 /*
2  * Copyright (C) 2009 The Libphonenumber Authors
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  * http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 package com.google.i18n.phonenumbers;
18 
19 import com.google.i18n.phonenumbers.Phonemetadata.NumberFormat;
20 import com.google.i18n.phonenumbers.Phonemetadata.PhoneMetadata;
21 import com.google.i18n.phonenumbers.Phonemetadata.PhoneMetadataCollection;
22 import com.google.i18n.phonenumbers.Phonemetadata.PhoneNumberDesc;
23 import com.google.i18n.phonenumbers.Phonenumber.PhoneNumber;
24 import com.google.i18n.phonenumbers.Phonenumber.PhoneNumber.CountryCodeSource;
25 
26 import java.io.IOException;
27 import java.io.InputStream;
28 import java.io.ObjectInput;
29 import java.io.ObjectInputStream;
30 import java.util.ArrayList;
31 import java.util.Arrays;
32 import java.util.Collections;
33 import java.util.HashMap;
34 import java.util.HashSet;
35 import java.util.Iterator;
36 import java.util.List;
37 import java.util.Map;
38 import java.util.Set;
39 import java.util.logging.Level;
40 import java.util.logging.Logger;
41 import java.util.regex.Matcher;
42 import java.util.regex.Pattern;
43 
44 /**
45  * Utility for international phone numbers. Functionality includes formatting, parsing and
46  * validation.
47  *
48  * <p>If you use this library, and want to be notified about important changes, please sign up to
49  * our <a href="http://groups.google.com/group/libphonenumber-discuss/about">mailing list</a>.
50  *
51  * NOTE: A lot of methods in this class require Region Code strings. These must be provided using
52  * ISO 3166-1 two-letter country-code format. These should be in upper-case. The list of the codes
53  * can be found here:
54  * http://www.iso.org/iso/country_codes/iso_3166_code_lists/country_names_and_code_elements.htm
55  *
56  * @author Shaopeng Jia
57  */
58 public class PhoneNumberUtil {
59   // @VisibleForTesting
60   static final MetadataLoader DEFAULT_METADATA_LOADER = new MetadataLoader() {
61     @Override
62     public InputStream loadMetadata(String metadataFileName) {
63       return PhoneNumberUtil.class.getResourceAsStream(metadataFileName);
64     }
65   };
66 
67   private static final Logger logger = Logger.getLogger(PhoneNumberUtil.class.getName());
68 
69   /** Flags to use when compiling regular expressions for phone numbers. */
70   static final int REGEX_FLAGS = Pattern.UNICODE_CASE | Pattern.CASE_INSENSITIVE;
71   // The minimum and maximum length of the national significant number.
72   private static final int MIN_LENGTH_FOR_NSN = 2;
73   // The ITU says the maximum length should be 15, but we have found longer numbers in Germany.
74   static final int MAX_LENGTH_FOR_NSN = 17;
75   // The maximum length of the country calling code.
76   static final int MAX_LENGTH_COUNTRY_CODE = 3;
77   // We don't allow input strings for parsing to be longer than 250 chars. This prevents malicious
78   // input from overflowing the regular-expression engine.
79   private static final int MAX_INPUT_STRING_LENGTH = 250;
80 
81   private static final String META_DATA_FILE_PREFIX =
82       "/com/google/i18n/phonenumbers/data/PhoneNumberMetadataProto";
83 
84   // Region-code for the unknown region.
85   private static final String UNKNOWN_REGION = "ZZ";
86 
87   private static final int NANPA_COUNTRY_CODE = 1;
88 
89   // The prefix that needs to be inserted in front of a Colombian landline number when dialed from
90   // a mobile phone in Colombia.
91   private static final String COLOMBIA_MOBILE_TO_FIXED_LINE_PREFIX = "3";
92 
93   // Map of country calling codes that use a mobile token before the area code. One example of when
94   // this is relevant is when determining the length of the national destination code, which should
95   // be the length of the area code plus the length of the mobile token.
96   private static final Map<Integer, String> MOBILE_TOKEN_MAPPINGS;
97 
98   // The PLUS_SIGN signifies the international prefix.
99   static final char PLUS_SIGN = '+';
100 
101   private static final char STAR_SIGN = '*';
102 
103   private static final String RFC3966_EXTN_PREFIX = ";ext=";
104   private static final String RFC3966_PREFIX = "tel:";
105   private static final String RFC3966_PHONE_CONTEXT = ";phone-context=";
106   private static final String RFC3966_ISDN_SUBADDRESS = ";isub=";
107 
108   // A map that contains characters that are essential when dialling. That means any of the
109   // characters in this map must not be removed from a number when dialling, otherwise the call
110   // will not reach the intended destination.
111   private static final Map<Character, Character> DIALLABLE_CHAR_MAPPINGS;
112 
113   // Only upper-case variants of alpha characters are stored.
114   private static final Map<Character, Character> ALPHA_MAPPINGS;
115 
116   // For performance reasons, amalgamate both into one map.
117   private static final Map<Character, Character> ALPHA_PHONE_MAPPINGS;
118 
119   // Separate map of all symbols that we wish to retain when formatting alpha numbers. This
120   // includes digits, ASCII letters and number grouping symbols such as "-" and " ".
121   private static final Map<Character, Character> ALL_PLUS_NUMBER_GROUPING_SYMBOLS;
122 
123   static {
124     HashMap<Integer, String> mobileTokenMap = new HashMap<Integer, String>();
125     mobileTokenMap.put(52, "1");
126     mobileTokenMap.put(54, "9");
127     MOBILE_TOKEN_MAPPINGS = Collections.unmodifiableMap(mobileTokenMap);
128 
129     // Simple ASCII digits map used to populate ALPHA_PHONE_MAPPINGS and
130     // ALL_PLUS_NUMBER_GROUPING_SYMBOLS.
131     HashMap<Character, Character> asciiDigitMappings = new HashMap<Character, Character>();
132     asciiDigitMappings.put('0', '0');
133     asciiDigitMappings.put('1', '1');
134     asciiDigitMappings.put('2', '2');
135     asciiDigitMappings.put('3', '3');
136     asciiDigitMappings.put('4', '4');
137     asciiDigitMappings.put('5', '5');
138     asciiDigitMappings.put('6', '6');
139     asciiDigitMappings.put('7', '7');
140     asciiDigitMappings.put('8', '8');
141     asciiDigitMappings.put('9', '9');
142 
143     HashMap<Character, Character> alphaMap = new HashMap<Character, Character>(40);
144     alphaMap.put('A', '2');
145     alphaMap.put('B', '2');
146     alphaMap.put('C', '2');
147     alphaMap.put('D', '3');
148     alphaMap.put('E', '3');
149     alphaMap.put('F', '3');
150     alphaMap.put('G', '4');
151     alphaMap.put('H', '4');
152     alphaMap.put('I', '4');
153     alphaMap.put('J', '5');
154     alphaMap.put('K', '5');
155     alphaMap.put('L', '5');
156     alphaMap.put('M', '6');
157     alphaMap.put('N', '6');
158     alphaMap.put('O', '6');
159     alphaMap.put('P', '7');
160     alphaMap.put('Q', '7');
161     alphaMap.put('R', '7');
162     alphaMap.put('S', '7');
163     alphaMap.put('T', '8');
164     alphaMap.put('U', '8');
165     alphaMap.put('V', '8');
166     alphaMap.put('W', '9');
167     alphaMap.put('X', '9');
168     alphaMap.put('Y', '9');
169     alphaMap.put('Z', '9');
170     ALPHA_MAPPINGS = Collections.unmodifiableMap(alphaMap);
171 
172     HashMap<Character, Character> combinedMap = new HashMap<Character, Character>(100);
173     combinedMap.putAll(ALPHA_MAPPINGS);
174     combinedMap.putAll(asciiDigitMappings);
175     ALPHA_PHONE_MAPPINGS = Collections.unmodifiableMap(combinedMap);
176 
177     HashMap<Character, Character> diallableCharMap = new HashMap<Character, Character>();
178     diallableCharMap.putAll(asciiDigitMappings);
diallableCharMap.put(PLUS_SIGN, PLUS_SIGN)179     diallableCharMap.put(PLUS_SIGN, PLUS_SIGN);
180     diallableCharMap.put('*', '*');
181     DIALLABLE_CHAR_MAPPINGS = Collections.unmodifiableMap(diallableCharMap);
182 
183     HashMap<Character, Character> allPlusNumberGroupings = new HashMap<Character, Character>();
184     // Put (lower letter -> upper letter) and (upper letter -> upper letter) mappings.
185     for (char c : ALPHA_MAPPINGS.keySet()) {
Character.toLowerCase(c)186       allPlusNumberGroupings.put(Character.toLowerCase(c), c);
allPlusNumberGroupings.put(c, c)187       allPlusNumberGroupings.put(c, c);
188     }
189     allPlusNumberGroupings.putAll(asciiDigitMappings);
190     // Put grouping symbols.
191     allPlusNumberGroupings.put('-', '-');
192     allPlusNumberGroupings.put('\uFF0D', '-');
193     allPlusNumberGroupings.put('\u2010', '-');
194     allPlusNumberGroupings.put('\u2011', '-');
195     allPlusNumberGroupings.put('\u2012', '-');
196     allPlusNumberGroupings.put('\u2013', '-');
197     allPlusNumberGroupings.put('\u2014', '-');
198     allPlusNumberGroupings.put('\u2015', '-');
199     allPlusNumberGroupings.put('\u2212', '-');
200     allPlusNumberGroupings.put('/', '/');
201     allPlusNumberGroupings.put('\uFF0F', '/');
202     allPlusNumberGroupings.put(' ', ' ');
203     allPlusNumberGroupings.put('\u3000', ' ');
204     allPlusNumberGroupings.put('\u2060', ' ');
205     allPlusNumberGroupings.put('.', '.');
206     allPlusNumberGroupings.put('\uFF0E', '.');
207     ALL_PLUS_NUMBER_GROUPING_SYMBOLS = Collections.unmodifiableMap(allPlusNumberGroupings);
208   }
209 
210   // Pattern that makes it easy to distinguish whether a region has a unique international dialing
211   // prefix or not. If a region has a unique international prefix (e.g. 011 in USA), it will be
212   // represented as a string that contains a sequence of ASCII digits. If there are multiple
213   // available international prefixes in a region, they will be represented as a regex string that
214   // always contains character(s) other than ASCII digits.
215   // Note this regex also includes tilde, which signals waiting for the tone.
216   private static final Pattern UNIQUE_INTERNATIONAL_PREFIX =
217       Pattern.compile("[\\d]+(?:[~\u2053\u223C\uFF5E][\\d]+)?");
218 
219   // Regular expression of acceptable punctuation found in phone numbers. This excludes punctuation
220   // found as a leading character only.
221   // This consists of dash characters, white space characters, full stops, slashes,
222   // square brackets, parentheses and tildes. It also includes the letter 'x' as that is found as a
223   // placeholder for carrier information in some phone numbers. Full-width variants are also
224   // present.
225   static final String VALID_PUNCTUATION = "-x\u2010-\u2015\u2212\u30FC\uFF0D-\uFF0F " +
226       "\u00A0\u00AD\u200B\u2060\u3000()\uFF08\uFF09\uFF3B\uFF3D.\\[\\]/~\u2053\u223C\uFF5E";
227 
228   private static final String DIGITS = "\\p{Nd}";
229   // We accept alpha characters in phone numbers, ASCII only, upper and lower case.
230   private static final String VALID_ALPHA =
231       Arrays.toString(ALPHA_MAPPINGS.keySet().toArray()).replaceAll("[, \\[\\]]", "") +
232       Arrays.toString(ALPHA_MAPPINGS.keySet().toArray()).toLowerCase().replaceAll("[, \\[\\]]", "");
233   static final String PLUS_CHARS = "+\uFF0B";
234   static final Pattern PLUS_CHARS_PATTERN = Pattern.compile("[" + PLUS_CHARS + "]+");
235   private static final Pattern SEPARATOR_PATTERN = Pattern.compile("[" + VALID_PUNCTUATION + "]+");
236   private static final Pattern CAPTURING_DIGIT_PATTERN = Pattern.compile("(" + DIGITS + ")");
237 
238   // Regular expression of acceptable characters that may start a phone number for the purposes of
239   // parsing. This allows us to strip away meaningless prefixes to phone numbers that may be
240   // mistakenly given to us. This consists of digits, the plus symbol and arabic-indic digits. This
241   // does not contain alpha characters, although they may be used later in the number. It also does
242   // not include other punctuation, as this will be stripped later during parsing and is of no
243   // information value when parsing a number.
244   private static final String VALID_START_CHAR = "[" + PLUS_CHARS + DIGITS + "]";
245   private static final Pattern VALID_START_CHAR_PATTERN = Pattern.compile(VALID_START_CHAR);
246 
247   // Regular expression of characters typically used to start a second phone number for the purposes
248   // of parsing. This allows us to strip off parts of the number that are actually the start of
249   // another number, such as for: (530) 583-6985 x302/x2303 -> the second extension here makes this
250   // actually two phone numbers, (530) 583-6985 x302 and (530) 583-6985 x2303. We remove the second
251   // extension so that the first number is parsed correctly.
252   private static final String SECOND_NUMBER_START = "[\\\\/] *x";
253   static final Pattern SECOND_NUMBER_START_PATTERN = Pattern.compile(SECOND_NUMBER_START);
254 
255   // Regular expression of trailing characters that we want to remove. We remove all characters that
256   // are not alpha or numerical characters. The hash character is retained here, as it may signify
257   // the previous block was an extension.
258   private static final String UNWANTED_END_CHARS = "[[\\P{N}&&\\P{L}]&&[^#]]+$";
259   static final Pattern UNWANTED_END_CHAR_PATTERN = Pattern.compile(UNWANTED_END_CHARS);
260 
261   // We use this pattern to check if the phone number has at least three letters in it - if so, then
262   // we treat it as a number where some phone-number digits are represented by letters.
263   private static final Pattern VALID_ALPHA_PHONE_PATTERN = Pattern.compile("(?:.*?[A-Za-z]){3}.*");
264 
265   // Regular expression of viable phone numbers. This is location independent. Checks we have at
266   // least three leading digits, and only valid punctuation, alpha characters and
267   // digits in the phone number. Does not include extension data.
268   // The symbol 'x' is allowed here as valid punctuation since it is often used as a placeholder for
269   // carrier codes, for example in Brazilian phone numbers. We also allow multiple "+" characters at
270   // the start.
271   // Corresponds to the following:
272   // [digits]{minLengthNsn}|
273   // plus_sign*(([punctuation]|[star])*[digits]){3,}([punctuation]|[star]|[digits]|[alpha])*
274   //
275   // The first reg-ex is to allow short numbers (two digits long) to be parsed if they are entered
276   // as "15" etc, but only if there is no punctuation in them. The second expression restricts the
277   // number of digits to three or more, but then allows them to be in international form, and to
278   // have alpha-characters and punctuation.
279   //
280   // Note VALID_PUNCTUATION starts with a -, so must be the first in the range.
281   private static final String VALID_PHONE_NUMBER =
282       DIGITS + "{" + MIN_LENGTH_FOR_NSN + "}" + "|" +
283       "[" + PLUS_CHARS + "]*+(?:[" + VALID_PUNCTUATION + STAR_SIGN + "]*" + DIGITS + "){3,}[" +
284       VALID_PUNCTUATION + STAR_SIGN + VALID_ALPHA + DIGITS + "]*";
285 
286   // Default extension prefix to use when formatting. This will be put in front of any extension
287   // component of the number, after the main national number is formatted. For example, if you wish
288   // the default extension formatting to be " extn: 3456", then you should specify " extn: " here
289   // as the default extension prefix. This can be overridden by region-specific preferences.
290   private static final String DEFAULT_EXTN_PREFIX = " ext. ";
291 
292   // Pattern to capture digits used in an extension. Places a maximum length of "7" for an
293   // extension.
294   private static final String CAPTURING_EXTN_DIGITS = "(" + DIGITS + "{1,7})";
295   // Regexp of all possible ways to write extensions, for use when parsing. This will be run as a
296   // case-insensitive regexp match. Wide character versions are also provided after each ASCII
297   // version.
298   private static final String EXTN_PATTERNS_FOR_PARSING;
299   static final String EXTN_PATTERNS_FOR_MATCHING;
300   static {
301     // One-character symbols that can be used to indicate an extension.
302     String singleExtnSymbolsForMatching = "x\uFF58#\uFF03~\uFF5E";
303     // For parsing, we are slightly more lenient in our interpretation than for matching. Here we
304     // allow a "comma" as a possible extension indicator. When matching, this is hardly ever used to
305     // indicate this.
306     String singleExtnSymbolsForParsing = "," + singleExtnSymbolsForMatching;
307 
308     EXTN_PATTERNS_FOR_PARSING = createExtnPattern(singleExtnSymbolsForParsing);
309     EXTN_PATTERNS_FOR_MATCHING = createExtnPattern(singleExtnSymbolsForMatching);
310   }
311 
312   /**
313    * Helper initialiser method to create the regular-expression pattern to match extensions,
314    * allowing the one-char extension symbols provided by {@code singleExtnSymbols}.
315    */
createExtnPattern(String singleExtnSymbols)316   private static String createExtnPattern(String singleExtnSymbols) {
317     // There are three regular expressions here. The first covers RFC 3966 format, where the
318     // extension is added using ";ext=". The second more generic one starts with optional white
319     // space and ends with an optional full stop (.), followed by zero or more spaces/tabs and then
320     // the numbers themselves. The other one covers the special case of American numbers where the
321     // extension is written with a hash at the end, such as "- 503#".
322     // Note that the only capturing groups should be around the digits that you want to capture as
323     // part of the extension, or else parsing will fail!
324     // Canonical-equivalence doesn't seem to be an option with Android java, so we allow two options
325     // for representing the accented o - the character itself, and one in the unicode decomposed
326     // form with the combining acute accent.
327     return (RFC3966_EXTN_PREFIX + CAPTURING_EXTN_DIGITS + "|" + "[ \u00A0\\t,]*" +
328             "(?:e?xt(?:ensi(?:o\u0301?|\u00F3))?n?|\uFF45?\uFF58\uFF54\uFF4E?|" +
329             "[" + singleExtnSymbols + "]|int|anexo|\uFF49\uFF4E\uFF54)" +
330             "[:\\.\uFF0E]?[ \u00A0\\t,-]*" + CAPTURING_EXTN_DIGITS + "#?|" +
331             "[- ]+(" + DIGITS + "{1,5})#");
332   }
333 
334   // Regexp of all known extension prefixes used by different regions followed by 1 or more valid
335   // digits, for use when parsing.
336   private static final Pattern EXTN_PATTERN =
337       Pattern.compile("(?:" + EXTN_PATTERNS_FOR_PARSING + ")$", REGEX_FLAGS);
338 
339   // We append optionally the extension pattern to the end here, as a valid phone number may
340   // have an extension prefix appended, followed by 1 or more digits.
341   private static final Pattern VALID_PHONE_NUMBER_PATTERN =
342       Pattern.compile(VALID_PHONE_NUMBER + "(?:" + EXTN_PATTERNS_FOR_PARSING + ")?", REGEX_FLAGS);
343 
344   static final Pattern NON_DIGITS_PATTERN = Pattern.compile("(\\D+)");
345 
346   // The FIRST_GROUP_PATTERN was originally set to $1 but there are some countries for which the
347   // first group is not used in the national pattern (e.g. Argentina) so the $1 group does not match
348   // correctly.  Therefore, we use \d, so that the first group actually used in the pattern will be
349   // matched.
350   private static final Pattern FIRST_GROUP_PATTERN = Pattern.compile("(\\$\\d)");
351   private static final Pattern NP_PATTERN = Pattern.compile("\\$NP");
352   private static final Pattern FG_PATTERN = Pattern.compile("\\$FG");
353   private static final Pattern CC_PATTERN = Pattern.compile("\\$CC");
354 
355   // A pattern that is used to determine if the national prefix formatting rule has the first group
356   // only, i.e., does not start with the national prefix. Note that the pattern explicitly allows
357   // for unbalanced parentheses.
358   private static final Pattern FIRST_GROUP_ONLY_PREFIX_PATTERN = Pattern.compile("\\(?\\$1\\)?");
359 
360   private static PhoneNumberUtil instance = null;
361 
362   public static final String REGION_CODE_FOR_NON_GEO_ENTITY = "001";
363 
364   /**
365    * INTERNATIONAL and NATIONAL formats are consistent with the definition in ITU-T Recommendation
366    * E123. For example, the number of the Google Switzerland office will be written as
367    * "+41 44 668 1800" in INTERNATIONAL format, and as "044 668 1800" in NATIONAL format.
368    * E164 format is as per INTERNATIONAL format but with no formatting applied, e.g.
369    * "+41446681800". RFC3966 is as per INTERNATIONAL format, but with all spaces and other
370    * separating symbols replaced with a hyphen, and with any phone number extension appended with
371    * ";ext=". It also will have a prefix of "tel:" added, e.g. "tel:+41-44-668-1800".
372    *
373    * Note: If you are considering storing the number in a neutral format, you are highly advised to
374    * use the PhoneNumber class.
375    */
376   public enum PhoneNumberFormat {
377     E164,
378     INTERNATIONAL,
379     NATIONAL,
380     RFC3966
381   }
382 
383   /**
384    * Type of phone numbers.
385    */
386   public enum PhoneNumberType {
387     FIXED_LINE,
388     MOBILE,
389     // In some regions (e.g. the USA), it is impossible to distinguish between fixed-line and
390     // mobile numbers by looking at the phone number itself.
391     FIXED_LINE_OR_MOBILE,
392     // Freephone lines
393     TOLL_FREE,
394     PREMIUM_RATE,
395     // The cost of this call is shared between the caller and the recipient, and is hence typically
396     // less than PREMIUM_RATE calls. See // http://en.wikipedia.org/wiki/Shared_Cost_Service for
397     // more information.
398     SHARED_COST,
399     // Voice over IP numbers. This includes TSoIP (Telephony Service over IP).
400     VOIP,
401     // A personal number is associated with a particular person, and may be routed to either a
402     // MOBILE or FIXED_LINE number. Some more information can be found here:
403     // http://en.wikipedia.org/wiki/Personal_Numbers
404     PERSONAL_NUMBER,
405     PAGER,
406     // Used for "Universal Access Numbers" or "Company Numbers". They may be further routed to
407     // specific offices, but allow one number to be used for a company.
408     UAN,
409     // Used for "Voice Mail Access Numbers".
410     VOICEMAIL,
411     // A phone number is of type UNKNOWN when it does not fit any of the known patterns for a
412     // specific region.
413     UNKNOWN
414   }
415 
416   /**
417    * Types of phone number matches. See detailed description beside the isNumberMatch() method.
418    */
419   public enum MatchType {
420     NOT_A_NUMBER,
421     NO_MATCH,
422     SHORT_NSN_MATCH,
423     NSN_MATCH,
424     EXACT_MATCH,
425   }
426 
427   /**
428    * Possible outcomes when testing if a PhoneNumber is possible.
429    */
430   public enum ValidationResult {
431     IS_POSSIBLE,
432     INVALID_COUNTRY_CODE,
433     TOO_SHORT,
434     TOO_LONG,
435   }
436 
437   /**
438    * Leniency when {@linkplain PhoneNumberUtil#findNumbers finding} potential phone numbers in text
439    * segments. The levels here are ordered in increasing strictness.
440    */
441   public enum Leniency {
442     /**
443      * Phone numbers accepted are {@linkplain PhoneNumberUtil#isPossibleNumber(PhoneNumber)
444      * possible}, but not necessarily {@linkplain PhoneNumberUtil#isValidNumber(PhoneNumber) valid}.
445      */
446     POSSIBLE {
447       @Override
verify(PhoneNumber number, String candidate, PhoneNumberUtil util)448       boolean verify(PhoneNumber number, String candidate, PhoneNumberUtil util) {
449         return util.isPossibleNumber(number);
450       }
451     },
452     /**
453      * Phone numbers accepted are {@linkplain PhoneNumberUtil#isPossibleNumber(PhoneNumber)
454      * possible} and {@linkplain PhoneNumberUtil#isValidNumber(PhoneNumber) valid}. Numbers written
455      * in national format must have their national-prefix present if it is usually written for a
456      * number of this type.
457      */
458     VALID {
459       @Override
verify(PhoneNumber number, String candidate, PhoneNumberUtil util)460       boolean verify(PhoneNumber number, String candidate, PhoneNumberUtil util) {
461         if (!util.isValidNumber(number) ||
462             !PhoneNumberMatcher.containsOnlyValidXChars(number, candidate, util)) {
463           return false;
464         }
465         return PhoneNumberMatcher.isNationalPrefixPresentIfRequired(number, util);
466       }
467     },
468     /**
469      * Phone numbers accepted are {@linkplain PhoneNumberUtil#isValidNumber(PhoneNumber) valid} and
470      * are grouped in a possible way for this locale. For example, a US number written as
471      * "65 02 53 00 00" and "650253 0000" are not accepted at this leniency level, whereas
472      * "650 253 0000", "650 2530000" or "6502530000" are.
473      * Numbers with more than one '/' symbol in the national significant number are also dropped at
474      * this level.
475      * <p>
476      * Warning: This level might result in lower coverage especially for regions outside of country
477      * code "+1". If you are not sure about which level to use, email the discussion group
478      * libphonenumber-discuss@googlegroups.com.
479      */
480     STRICT_GROUPING {
481       @Override
verify(PhoneNumber number, String candidate, PhoneNumberUtil util)482       boolean verify(PhoneNumber number, String candidate, PhoneNumberUtil util) {
483         if (!util.isValidNumber(number) ||
484             !PhoneNumberMatcher.containsOnlyValidXChars(number, candidate, util) ||
485             PhoneNumberMatcher.containsMoreThanOneSlashInNationalNumber(number, candidate) ||
486             !PhoneNumberMatcher.isNationalPrefixPresentIfRequired(number, util)) {
487           return false;
488         }
489         return PhoneNumberMatcher.checkNumberGroupingIsValid(
490             number, candidate, util, new PhoneNumberMatcher.NumberGroupingChecker() {
491               @Override
492               public boolean checkGroups(PhoneNumberUtil util, PhoneNumber number,
493                                          StringBuilder normalizedCandidate,
494                                          String[] expectedNumberGroups) {
495                 return PhoneNumberMatcher.allNumberGroupsRemainGrouped(
496                     util, number, normalizedCandidate, expectedNumberGroups);
497               }
498             });
499       }
500     },
501     /**
502      * Phone numbers accepted are {@linkplain PhoneNumberUtil#isValidNumber(PhoneNumber) valid} and
503      * are grouped in the same way that we would have formatted it, or as a single block. For
504      * example, a US number written as "650 2530000" is not accepted at this leniency level, whereas
505      * "650 253 0000" or "6502530000" are.
506      * Numbers with more than one '/' symbol are also dropped at this level.
507      * <p>
508      * Warning: This level might result in lower coverage especially for regions outside of country
509      * code "+1". If you are not sure about which level to use, email the discussion group
510      * libphonenumber-discuss@googlegroups.com.
511      */
512     EXACT_GROUPING {
513       @Override
verify(PhoneNumber number, String candidate, PhoneNumberUtil util)514       boolean verify(PhoneNumber number, String candidate, PhoneNumberUtil util) {
515         if (!util.isValidNumber(number) ||
516             !PhoneNumberMatcher.containsOnlyValidXChars(number, candidate, util) ||
517             PhoneNumberMatcher.containsMoreThanOneSlashInNationalNumber(number, candidate) ||
518             !PhoneNumberMatcher.isNationalPrefixPresentIfRequired(number, util)) {
519           return false;
520         }
521         return PhoneNumberMatcher.checkNumberGroupingIsValid(
522             number, candidate, util, new PhoneNumberMatcher.NumberGroupingChecker() {
523               @Override
524               public boolean checkGroups(PhoneNumberUtil util, PhoneNumber number,
525                                          StringBuilder normalizedCandidate,
526                                          String[] expectedNumberGroups) {
527                 return PhoneNumberMatcher.allNumberGroupsAreExactlyPresent(
528                     util, number, normalizedCandidate, expectedNumberGroups);
529               }
530             });
531       }
532     };
533 
534     /** Returns true if {@code number} is a verified number according to this leniency. */
535     abstract boolean verify(PhoneNumber number, String candidate, PhoneNumberUtil util);
536   }
537 
538   // A mapping from a country calling code to the region codes which denote the region represented
539   // by that country calling code. In the case of multiple regions sharing a calling code, such as
540   // the NANPA regions, the one indicated with "isMainCountryForCode" in the metadata should be
541   // first.
542   private final Map<Integer, List<String>> countryCallingCodeToRegionCodeMap;
543 
544   // The set of regions that share country calling code 1.
545   // There are roughly 26 regions.
546   // We set the initial capacity of the HashSet to 35 to offer a load factor of roughly 0.75.
547   private final Set<String> nanpaRegions = new HashSet<String>(35);
548 
549   // A mapping from a region code to the PhoneMetadata for that region.
550   // Note: Synchronization, though only needed for the Android version of the library, is used in
551   // all versions for consistency.
552   private final Map<String, PhoneMetadata> regionToMetadataMap =
553       Collections.synchronizedMap(new HashMap<String, PhoneMetadata>());
554 
555   // A mapping from a country calling code for a non-geographical entity to the PhoneMetadata for
556   // that country calling code. Examples of the country calling codes include 800 (International
557   // Toll Free Service) and 808 (International Shared Cost Service).
558   // Note: Synchronization, though only needed for the Android version of the library, is used in
559   // all versions for consistency.
560   private final Map<Integer, PhoneMetadata> countryCodeToNonGeographicalMetadataMap =
561       Collections.synchronizedMap(new HashMap<Integer, PhoneMetadata>());
562 
563   // A cache for frequently used region-specific regular expressions.
564   // The initial capacity is set to 100 as this seems to be an optimal value for Android, based on
565   // performance measurements.
566   private final RegexCache regexCache = new RegexCache(100);
567 
568   // The set of regions the library supports.
569   // There are roughly 240 of them and we set the initial capacity of the HashSet to 320 to offer a
570   // load factor of roughly 0.75.
571   private final Set<String> supportedRegions = new HashSet<String>(320);
572 
573   // The set of county calling codes that map to the non-geo entity region ("001"). This set
574   // currently contains < 12 elements so the default capacity of 16 (load factor=0.75) is fine.
575   private final Set<Integer> countryCodesForNonGeographicalRegion = new HashSet<Integer>();
576 
577   // The prefix of the metadata files from which region data is loaded.
578   private final String currentFilePrefix;
579   // The metadata loader used to inject alternative metadata sources.
580   private final MetadataLoader metadataLoader;
581 
582   /**
583    * This class implements a singleton, the constructor is only visible to facilitate testing.
584    */
585   // @VisibleForTesting
586   PhoneNumberUtil(String filePrefix, MetadataLoader metadataLoader,
587       Map<Integer, List<String>> countryCallingCodeToRegionCodeMap) {
588     this.currentFilePrefix = filePrefix;
589     this.metadataLoader = metadataLoader;
590     this.countryCallingCodeToRegionCodeMap = countryCallingCodeToRegionCodeMap;
591     for (Map.Entry<Integer, List<String>> entry : countryCallingCodeToRegionCodeMap.entrySet()) {
592       List<String> regionCodes = entry.getValue();
593       // We can assume that if the county calling code maps to the non-geo entity region code then
594       // that's the only region code it maps to.
595       if (regionCodes.size() == 1 && REGION_CODE_FOR_NON_GEO_ENTITY.equals(regionCodes.get(0))) {
596         // This is the subset of all country codes that map to the non-geo entity region code.
597         countryCodesForNonGeographicalRegion.add(entry.getKey());
598       } else {
599         // The supported regions set does not include the "001" non-geo entity region code.
600         supportedRegions.addAll(regionCodes);
601       }
602     }
603     // If the non-geo entity still got added to the set of supported regions it must be because
604     // there are entries that list the non-geo entity alongside normal regions (which is wrong).
605     // If we discover this, remove the non-geo entity from the set of supported regions and log.
606     if (supportedRegions.remove(REGION_CODE_FOR_NON_GEO_ENTITY)) {
607       logger.log(Level.WARNING, "invalid metadata " +
608           "(country calling code was mapped to the non-geo entity as well as specific region(s))");
609     }
610     nanpaRegions.addAll(countryCallingCodeToRegionCodeMap.get(NANPA_COUNTRY_CODE));
611   }
612 
613   // @VisibleForTesting
614   void loadMetadataFromFile(String filePrefix, String regionCode, int countryCallingCode,
615       MetadataLoader metadataLoader) {
616     boolean isNonGeoRegion = REGION_CODE_FOR_NON_GEO_ENTITY.equals(regionCode);
617     String fileName = filePrefix + "_" +
618         (isNonGeoRegion ? String.valueOf(countryCallingCode) : regionCode);
619     InputStream source = metadataLoader.loadMetadata(fileName);
620     if (source == null) {
621       logger.log(Level.SEVERE, "missing metadata: " + fileName);
622       throw new IllegalStateException("missing metadata: " + fileName);
623     }
624     ObjectInputStream in = null;
625     try {
626       in = new ObjectInputStream(source);
627       PhoneMetadataCollection metadataCollection = loadMetadataAndCloseInput(in);
628       List<PhoneMetadata> metadataList = metadataCollection.getMetadataList();
629       if (metadataList.isEmpty()) {
630         logger.log(Level.SEVERE, "empty metadata: " + fileName);
631         throw new IllegalStateException("empty metadata: " + fileName);
632       }
633       if (metadataList.size() > 1) {
634         logger.log(Level.WARNING, "invalid metadata (too many entries): " + fileName);
635       }
636       PhoneMetadata metadata = metadataList.get(0);
637       if (isNonGeoRegion) {
638         countryCodeToNonGeographicalMetadataMap.put(countryCallingCode, metadata);
639       } else {
640         regionToMetadataMap.put(regionCode, metadata);
641       }
642     } catch (IOException e) {
643       logger.log(Level.SEVERE, "cannot load/parse metadata: " + fileName, e);
644       throw new RuntimeException("cannot load/parse metadata: " + fileName, e);
645     }
646   }
647 
648   /**
649    * Loads the metadata protocol buffer from the given stream and closes the stream afterwards. Any
650    * exceptions that occur while reading the stream are propagated (though exceptions that occur
651    * when the stream is closed will be ignored).
652    *
653    * @param source  the non-null stream from which metadata is to be read.
654    * @return        the loaded metadata protocol buffer.
655    */
656   private static PhoneMetadataCollection loadMetadataAndCloseInput(ObjectInputStream source) {
657     PhoneMetadataCollection metadataCollection = new PhoneMetadataCollection();
658     try {
659       metadataCollection.readExternal(source);
660     } catch (IOException e) {
661       logger.log(Level.WARNING, "error reading input (ignored)", e);
662     } finally {
663       try {
664         source.close();
665       } catch (IOException e) {
666         logger.log(Level.WARNING, "error closing input stream (ignored)", e);
667       } finally {
668         return metadataCollection;
669       }
670     }
671   }
672 
673   /**
674    * Attempts to extract a possible number from the string passed in. This currently strips all
675    * leading characters that cannot be used to start a phone number. Characters that can be used to
676    * start a phone number are defined in the VALID_START_CHAR_PATTERN. If none of these characters
677    * are found in the number passed in, an empty string is returned. This function also attempts to
678    * strip off any alternative extensions or endings if two or more are present, such as in the case
679    * of: (530) 583-6985 x302/x2303. The second extension here makes this actually two phone numbers,
680    * (530) 583-6985 x302 and (530) 583-6985 x2303. We remove the second extension so that the first
681    * number is parsed correctly.
682    *
683    * @param number  the string that might contain a phone number
684    * @return        the number, stripped of any non-phone-number prefix (such as "Tel:") or an empty
685    *                string if no character used to start phone numbers (such as + or any digit) is
686    *                found in the number
687    */
688   static String extractPossibleNumber(String number) {
689     Matcher m = VALID_START_CHAR_PATTERN.matcher(number);
690     if (m.find()) {
691       number = number.substring(m.start());
692       // Remove trailing non-alpha non-numerical characters.
693       Matcher trailingCharsMatcher = UNWANTED_END_CHAR_PATTERN.matcher(number);
694       if (trailingCharsMatcher.find()) {
695         number = number.substring(0, trailingCharsMatcher.start());
696         logger.log(Level.FINER, "Stripped trailing characters: " + number);
697       }
698       // Check for extra numbers at the end.
699       Matcher secondNumber = SECOND_NUMBER_START_PATTERN.matcher(number);
700       if (secondNumber.find()) {
701         number = number.substring(0, secondNumber.start());
702       }
703       return number;
704     } else {
705       return "";
706     }
707   }
708 
709   /**
710    * Checks to see if the string of characters could possibly be a phone number at all. At the
711    * moment, checks to see that the string begins with at least 2 digits, ignoring any punctuation
712    * commonly found in phone numbers.
713    * This method does not require the number to be normalized in advance - but does assume that
714    * leading non-number symbols have been removed, such as by the method extractPossibleNumber.
715    *
716    * @param number  string to be checked for viability as a phone number
717    * @return        true if the number could be a phone number of some sort, otherwise false
718    */
719   // @VisibleForTesting
720   static boolean isViablePhoneNumber(String number) {
721     if (number.length() < MIN_LENGTH_FOR_NSN) {
722       return false;
723     }
724     Matcher m = VALID_PHONE_NUMBER_PATTERN.matcher(number);
725     return m.matches();
726   }
727 
728   /**
729    * Normalizes a string of characters representing a phone number. This performs the following
730    * conversions:
731    *   Punctuation is stripped.
732    *   For ALPHA/VANITY numbers:
733    *   Letters are converted to their numeric representation on a telephone keypad. The keypad
734    *       used here is the one defined in ITU Recommendation E.161. This is only done if there are
735    *       3 or more letters in the number, to lessen the risk that such letters are typos.
736    *   For other numbers:
737    *   Wide-ascii digits are converted to normal ASCII (European) digits.
738    *   Arabic-Indic numerals are converted to European numerals.
739    *   Spurious alpha characters are stripped.
740    *
741    * @param number  a string of characters representing a phone number
742    * @return        the normalized string version of the phone number
743    */
744   static String normalize(String number) {
745     Matcher m = VALID_ALPHA_PHONE_PATTERN.matcher(number);
746     if (m.matches()) {
747       return normalizeHelper(number, ALPHA_PHONE_MAPPINGS, true);
748     } else {
749       return normalizeDigitsOnly(number);
750     }
751   }
752 
753   /**
754    * Normalizes a string of characters representing a phone number. This is a wrapper for
755    * normalize(String number) but does in-place normalization of the StringBuilder provided.
756    *
757    * @param number  a StringBuilder of characters representing a phone number that will be
758    *     normalized in place
759    */
760   static void normalize(StringBuilder number) {
761     String normalizedNumber = normalize(number.toString());
762     number.replace(0, number.length(), normalizedNumber);
763   }
764 
765   /**
766    * Normalizes a string of characters representing a phone number. This converts wide-ascii and
767    * arabic-indic numerals to European numerals, and strips punctuation and alpha characters.
768    *
769    * @param number  a string of characters representing a phone number
770    * @return        the normalized string version of the phone number
771    */
772   public static String normalizeDigitsOnly(String number) {
773     return normalizeDigits(number, false /* strip non-digits */).toString();
774   }
775 
776   static StringBuilder normalizeDigits(String number, boolean keepNonDigits) {
777     StringBuilder normalizedDigits = new StringBuilder(number.length());
778     for (char c : number.toCharArray()) {
779       int digit = Character.digit(c, 10);
780       if (digit != -1) {
781         normalizedDigits.append(digit);
782       } else if (keepNonDigits) {
783         normalizedDigits.append(c);
784       }
785     }
786     return normalizedDigits;
787   }
788 
789   /**
790    * Normalizes a string of characters representing a phone number. This strips all characters which
791    * are not diallable on a mobile phone keypad (including all non-ASCII digits).
792    *
793    * @param number  a string of characters representing a phone number
794    * @return        the normalized string version of the phone number
795    */
796   static String normalizeDiallableCharsOnly(String number) {
797     return normalizeHelper(number, DIALLABLE_CHAR_MAPPINGS, true /* remove non matches */);
798   }
799 
800   /**
801    * Converts all alpha characters in a number to their respective digits on a keypad, but retains
802    * existing formatting.
803    */
804   public static String convertAlphaCharactersInNumber(String number) {
805     return normalizeHelper(number, ALPHA_PHONE_MAPPINGS, false);
806   }
807 
808   /**
809    * Gets the length of the geographical area code from the
810    * PhoneNumber object passed in, so that clients could use it
811    * to split a national significant number into geographical area code and subscriber number. It
812    * works in such a way that the resultant subscriber number should be diallable, at least on some
813    * devices. An example of how this could be used:
814    *
815    * <pre>
816    * PhoneNumberUtil phoneUtil = PhoneNumberUtil.getInstance();
817    * PhoneNumber number = phoneUtil.parse("16502530000", "US");
818    * String nationalSignificantNumber = phoneUtil.getNationalSignificantNumber(number);
819    * String areaCode;
820    * String subscriberNumber;
821    *
822    * int areaCodeLength = phoneUtil.getLengthOfGeographicalAreaCode(number);
823    * if (areaCodeLength > 0) {
824    *   areaCode = nationalSignificantNumber.substring(0, areaCodeLength);
825    *   subscriberNumber = nationalSignificantNumber.substring(areaCodeLength);
826    * } else {
827    *   areaCode = "";
828    *   subscriberNumber = nationalSignificantNumber;
829    * }
830    * </pre>
831    *
832    * N.B.: area code is a very ambiguous concept, so the I18N team generally recommends against
833    * using it for most purposes, but recommends using the more general {@code national_number}
834    * instead. Read the following carefully before deciding to use this method:
835    * <ul>
836    *  <li> geographical area codes change over time, and this method honors those changes;
837    *    therefore, it doesn't guarantee the stability of the result it produces.
838    *  <li> subscriber numbers may not be diallable from all devices (notably mobile devices, which
839    *    typically requires the full national_number to be dialled in most regions).
840    *  <li> most non-geographical numbers have no area codes, including numbers from non-geographical
841    *    entities
842    *  <li> some geographical numbers have no area codes.
843    * </ul>
844    * @param number  the PhoneNumber object for which clients
845    *     want to know the length of the area code.
846    * @return  the length of area code of the PhoneNumber object
847    *     passed in.
848    */
849   public int getLengthOfGeographicalAreaCode(PhoneNumber number) {
850     PhoneMetadata metadata = getMetadataForRegion(getRegionCodeForNumber(number));
851     if (metadata == null) {
852       return 0;
853     }
854     // If a country doesn't use a national prefix, and this number doesn't have an Italian leading
855     // zero, we assume it is a closed dialling plan with no area codes.
856     if (!metadata.hasNationalPrefix() && !number.isItalianLeadingZero()) {
857       return 0;
858     }
859 
860     if (!isNumberGeographical(number)) {
861       return 0;
862     }
863 
864     return getLengthOfNationalDestinationCode(number);
865   }
866 
867   /**
868    * Gets the length of the national destination code (NDC) from the
869    * PhoneNumber object passed in, so that clients could use it
870    * to split a national significant number into NDC and subscriber number. The NDC of a phone
871    * number is normally the first group of digit(s) right after the country calling code when the
872    * number is formatted in the international format, if there is a subscriber number part that
873    * follows. An example of how this could be used:
874    *
875    * <pre>
876    * PhoneNumberUtil phoneUtil = PhoneNumberUtil.getInstance();
877    * PhoneNumber number = phoneUtil.parse("18002530000", "US");
878    * String nationalSignificantNumber = phoneUtil.getNationalSignificantNumber(number);
879    * String nationalDestinationCode;
880    * String subscriberNumber;
881    *
882    * int nationalDestinationCodeLength = phoneUtil.getLengthOfNationalDestinationCode(number);
883    * if (nationalDestinationCodeLength > 0) {
884    *   nationalDestinationCode = nationalSignificantNumber.substring(0,
885    *       nationalDestinationCodeLength);
886    *   subscriberNumber = nationalSignificantNumber.substring(nationalDestinationCodeLength);
887    * } else {
888    *   nationalDestinationCode = "";
889    *   subscriberNumber = nationalSignificantNumber;
890    * }
891    * </pre>
892    *
893    * Refer to the unittests to see the difference between this function and
894    * {@link #getLengthOfGeographicalAreaCode}.
895    *
896    * @param number  the PhoneNumber object for which clients
897    *     want to know the length of the NDC.
898    * @return  the length of NDC of the PhoneNumber object
899    *     passed in.
900    */
901   public int getLengthOfNationalDestinationCode(PhoneNumber number) {
902     PhoneNumber copiedProto;
903     if (number.hasExtension()) {
904       // We don't want to alter the proto given to us, but we don't want to include the extension
905       // when we format it, so we copy it and clear the extension here.
906       copiedProto = new PhoneNumber();
907       copiedProto.mergeFrom(number);
908       copiedProto.clearExtension();
909     } else {
910       copiedProto = number;
911     }
912 
913     String nationalSignificantNumber = format(copiedProto,
914                                               PhoneNumberUtil.PhoneNumberFormat.INTERNATIONAL);
915     String[] numberGroups = NON_DIGITS_PATTERN.split(nationalSignificantNumber);
916     // The pattern will start with "+COUNTRY_CODE " so the first group will always be the empty
917     // string (before the + symbol) and the second group will be the country calling code. The third
918     // group will be area code if it is not the last group.
919     if (numberGroups.length <= 3) {
920       return 0;
921     }
922 
923     if (getNumberType(number) == PhoneNumberType.MOBILE) {
924       // For example Argentinian mobile numbers, when formatted in the international format, are in
925       // the form of +54 9 NDC XXXX.... As a result, we take the length of the third group (NDC) and
926       // add the length of the second group (which is the mobile token), which also forms part of
927       // the national significant number. This assumes that the mobile token is always formatted
928       // separately from the rest of the phone number.
929       String mobileToken = getCountryMobileToken(number.getCountryCode());
930       if (!mobileToken.equals("")) {
931         return numberGroups[2].length() + numberGroups[3].length();
932       }
933     }
934     return numberGroups[2].length();
935   }
936 
937   /**
938    * Returns the mobile token for the provided country calling code if it has one, otherwise
939    * returns an empty string. A mobile token is a number inserted before the area code when dialing
940    * a mobile number from that country from abroad.
941    *
942    * @param countryCallingCode  the country calling code for which we want the mobile token
943    * @return  the mobile token, as a string, for the given country calling code
944    */
945   public static String getCountryMobileToken(int countryCallingCode) {
946     if (MOBILE_TOKEN_MAPPINGS.containsKey(countryCallingCode)) {
947       return MOBILE_TOKEN_MAPPINGS.get(countryCallingCode);
948     }
949     return "";
950   }
951 
952   /**
953    * Normalizes a string of characters representing a phone number by replacing all characters found
954    * in the accompanying map with the values therein, and stripping all other characters if
955    * removeNonMatches is true.
956    *
957    * @param number                     a string of characters representing a phone number
958    * @param normalizationReplacements  a mapping of characters to what they should be replaced by in
959    *                                   the normalized version of the phone number
960    * @param removeNonMatches           indicates whether characters that are not able to be replaced
961    *                                   should be stripped from the number. If this is false, they
962    *                                   will be left unchanged in the number.
963    * @return  the normalized string version of the phone number
964    */
965   private static String normalizeHelper(String number,
966                                         Map<Character, Character> normalizationReplacements,
967                                         boolean removeNonMatches) {
968     StringBuilder normalizedNumber = new StringBuilder(number.length());
969     for (int i = 0; i < number.length(); i++) {
970       char character = number.charAt(i);
971       Character newDigit = normalizationReplacements.get(Character.toUpperCase(character));
972       if (newDigit != null) {
973         normalizedNumber.append(newDigit);
974       } else if (!removeNonMatches) {
975         normalizedNumber.append(character);
976       }
977       // If neither of the above are true, we remove this character.
978     }
979     return normalizedNumber.toString();
980   }
981 
982   /**
983    * Sets or resets the PhoneNumberUtil singleton instance. If set to null, the next call to
984    * {@code getInstance()} will load (and return) the default instance.
985    */
986   // @VisibleForTesting
987   static synchronized void setInstance(PhoneNumberUtil util) {
988     instance = util;
989   }
990 
991   /**
992    * Convenience method to get a list of what regions the library has metadata for.
993    */
994   public Set<String> getSupportedRegions() {
995     return Collections.unmodifiableSet(supportedRegions);
996   }
997 
998   /**
999    * Convenience method to get a list of what global network calling codes the library has metadata
1000    * for.
1001    */
1002   public Set<Integer> getSupportedGlobalNetworkCallingCodes() {
1003     return Collections.unmodifiableSet(countryCodesForNonGeographicalRegion);
1004   }
1005 
1006   /**
1007    * Gets a {@link PhoneNumberUtil} instance to carry out international phone number formatting,
1008    * parsing, or validation. The instance is loaded with phone number metadata for a number of most
1009    * commonly used regions.
1010    *
1011    * <p>The {@link PhoneNumberUtil} is implemented as a singleton. Therefore, calling getInstance
1012    * multiple times will only result in one instance being created.
1013    *
1014    * @return a PhoneNumberUtil instance
1015    */
1016   public static synchronized PhoneNumberUtil getInstance() {
1017     if (instance == null) {
1018       setInstance(createInstance(DEFAULT_METADATA_LOADER));
1019     }
1020     return instance;
1021   }
1022 
1023   /**
1024    * Create a new {@link PhoneNumberUtil} instance to carry out international phone number
1025    * formatting, parsing, or validation. The instance is loaded with all metadata by
1026    * using the metadataLoader specified.
1027    *
1028    * This method should only be used in the rare case in which you want to manage your own
1029    * metadata loading. Calling this method multiple times is very expensive, as each time
1030    * a new instance is created from scratch. When in doubt, use {@link #getInstance}.
1031    *
1032    * @param metadataLoader Customized metadata loader. If null, default metadata loader will
1033    *     be used. This should not be null.
1034    * @return a PhoneNumberUtil instance
1035    */
1036   public static PhoneNumberUtil createInstance(MetadataLoader metadataLoader) {
1037     if (metadataLoader == null) {
1038       throw new IllegalArgumentException("metadataLoader could not be null.");
1039     }
1040     return new PhoneNumberUtil(META_DATA_FILE_PREFIX, metadataLoader,
1041         CountryCodeToRegionCodeMap.getCountryCodeToRegionCodeMap());
1042   }
1043 
1044   /**
1045    * Helper function to check if the national prefix formatting rule has the first group only, i.e.,
1046    * does not start with the national prefix.
1047    */
1048   static boolean formattingRuleHasFirstGroupOnly(String nationalPrefixFormattingRule) {
1049     return nationalPrefixFormattingRule.length() == 0 ||
1050         FIRST_GROUP_ONLY_PREFIX_PATTERN.matcher(nationalPrefixFormattingRule).matches();
1051   }
1052 
1053   /**
1054    * Tests whether a phone number has a geographical association. It checks if the number is
1055    * associated to a certain region in the country where it belongs to. Note that this doesn't
1056    * verify if the number is actually in use.
1057    *
1058    * A similar method is implemented as PhoneNumberOfflineGeocoder.canBeGeocoded, which performs a
1059    * looser check, since it only prevents cases where prefixes overlap for geocodable and
1060    * non-geocodable numbers. Also, if new phone number types were added, we should check if this
1061    * other method should be updated too.
1062    */
1063   boolean isNumberGeographical(PhoneNumber phoneNumber) {
1064     PhoneNumberType numberType = getNumberType(phoneNumber);
1065     // TODO: Include mobile phone numbers from countries like Indonesia, which has some
1066     // mobile numbers that are geographical.
1067     return numberType == PhoneNumberType.FIXED_LINE ||
1068         numberType == PhoneNumberType.FIXED_LINE_OR_MOBILE;
1069   }
1070 
1071   /**
1072    * Helper function to check region code is not unknown or null.
1073    */
1074   private boolean isValidRegionCode(String regionCode) {
1075     return regionCode != null && supportedRegions.contains(regionCode);
1076   }
1077 
1078   /**
1079    * Helper function to check the country calling code is valid.
1080    */
1081   private boolean hasValidCountryCallingCode(int countryCallingCode) {
1082     return countryCallingCodeToRegionCodeMap.containsKey(countryCallingCode);
1083   }
1084 
1085   /**
1086    * Formats a phone number in the specified format using default rules. Note that this does not
1087    * promise to produce a phone number that the user can dial from where they are - although we do
1088    * format in either 'national' or 'international' format depending on what the client asks for, we
1089    * do not currently support a more abbreviated format, such as for users in the same "area" who
1090    * could potentially dial the number without area code. Note that if the phone number has a
1091    * country calling code of 0 or an otherwise invalid country calling code, we cannot work out
1092    * which formatting rules to apply so we return the national significant number with no formatting
1093    * applied.
1094    *
1095    * @param number         the phone number to be formatted
1096    * @param numberFormat   the format the phone number should be formatted into
1097    * @return  the formatted phone number
1098    */
1099   public String format(PhoneNumber number, PhoneNumberFormat numberFormat) {
1100     if (number.getNationalNumber() == 0 && number.hasRawInput()) {
1101       // Unparseable numbers that kept their raw input just use that.
1102       // This is the only case where a number can be formatted as E164 without a
1103       // leading '+' symbol (but the original number wasn't parseable anyway).
1104       // TODO: Consider removing the 'if' above so that unparseable
1105       // strings without raw input format to the empty string instead of "+00"
1106       String rawInput = number.getRawInput();
1107       if (rawInput.length() > 0) {
1108         return rawInput;
1109       }
1110     }
1111     StringBuilder formattedNumber = new StringBuilder(20);
1112     format(number, numberFormat, formattedNumber);
1113     return formattedNumber.toString();
1114   }
1115 
1116   /**
1117    * Same as {@link #format(PhoneNumber, PhoneNumberFormat)}, but accepts a mutable StringBuilder as
1118    * a parameter to decrease object creation when invoked many times.
1119    */
1120   public void format(PhoneNumber number, PhoneNumberFormat numberFormat,
1121                      StringBuilder formattedNumber) {
1122     // Clear the StringBuilder first.
1123     formattedNumber.setLength(0);
1124     int countryCallingCode = number.getCountryCode();
1125     String nationalSignificantNumber = getNationalSignificantNumber(number);
1126 
1127     if (numberFormat == PhoneNumberFormat.E164) {
1128       // Early exit for E164 case (even if the country calling code is invalid) since no formatting
1129       // of the national number needs to be applied. Extensions are not formatted.
1130       formattedNumber.append(nationalSignificantNumber);
1131       prefixNumberWithCountryCallingCode(countryCallingCode, PhoneNumberFormat.E164,
1132                                          formattedNumber);
1133       return;
1134     }
1135     if (!hasValidCountryCallingCode(countryCallingCode)) {
1136       formattedNumber.append(nationalSignificantNumber);
1137       return;
1138     }
1139     // Note getRegionCodeForCountryCode() is used because formatting information for regions which
1140     // share a country calling code is contained by only one region for performance reasons. For
1141     // example, for NANPA regions it will be contained in the metadata for US.
1142     String regionCode = getRegionCodeForCountryCode(countryCallingCode);
1143     // Metadata cannot be null because the country calling code is valid (which means that the
1144     // region code cannot be ZZ and must be one of our supported region codes).
1145     PhoneMetadata metadata =
1146         getMetadataForRegionOrCallingCode(countryCallingCode, regionCode);
1147     formattedNumber.append(formatNsn(nationalSignificantNumber, metadata, numberFormat));
1148     maybeAppendFormattedExtension(number, metadata, numberFormat, formattedNumber);
1149     prefixNumberWithCountryCallingCode(countryCallingCode, numberFormat, formattedNumber);
1150   }
1151 
1152   /**
1153    * Formats a phone number in the specified format using client-defined formatting rules. Note that
1154    * if the phone number has a country calling code of zero or an otherwise invalid country calling
1155    * code, we cannot work out things like whether there should be a national prefix applied, or how
1156    * to format extensions, so we return the national significant number with no formatting applied.
1157    *
1158    * @param number                        the phone number to be formatted
1159    * @param numberFormat                  the format the phone number should be formatted into
1160    * @param userDefinedFormats            formatting rules specified by clients
1161    * @return  the formatted phone number
1162    */
1163   public String formatByPattern(PhoneNumber number,
1164                                 PhoneNumberFormat numberFormat,
1165                                 List<NumberFormat> userDefinedFormats) {
1166     int countryCallingCode = number.getCountryCode();
1167     String nationalSignificantNumber = getNationalSignificantNumber(number);
1168     if (!hasValidCountryCallingCode(countryCallingCode)) {
1169       return nationalSignificantNumber;
1170     }
1171     // Note getRegionCodeForCountryCode() is used because formatting information for regions which
1172     // share a country calling code is contained by only one region for performance reasons. For
1173     // example, for NANPA regions it will be contained in the metadata for US.
1174     String regionCode = getRegionCodeForCountryCode(countryCallingCode);
1175     // Metadata cannot be null because the country calling code is valid
1176     PhoneMetadata metadata =
1177         getMetadataForRegionOrCallingCode(countryCallingCode, regionCode);
1178 
1179     StringBuilder formattedNumber = new StringBuilder(20);
1180 
1181     NumberFormat formattingPattern =
1182         chooseFormattingPatternForNumber(userDefinedFormats, nationalSignificantNumber);
1183     if (formattingPattern == null) {
1184       // If no pattern above is matched, we format the number as a whole.
1185       formattedNumber.append(nationalSignificantNumber);
1186     } else {
1187       NumberFormat numFormatCopy = new NumberFormat();
1188       // Before we do a replacement of the national prefix pattern $NP with the national prefix, we
1189       // need to copy the rule so that subsequent replacements for different numbers have the
1190       // appropriate national prefix.
1191       numFormatCopy.mergeFrom(formattingPattern);
1192       String nationalPrefixFormattingRule = formattingPattern.getNationalPrefixFormattingRule();
1193       if (nationalPrefixFormattingRule.length() > 0) {
1194         String nationalPrefix = metadata.getNationalPrefix();
1195         if (nationalPrefix.length() > 0) {
1196           // Replace $NP with national prefix and $FG with the first group ($1).
1197           nationalPrefixFormattingRule =
1198               NP_PATTERN.matcher(nationalPrefixFormattingRule).replaceFirst(nationalPrefix);
1199           nationalPrefixFormattingRule =
1200               FG_PATTERN.matcher(nationalPrefixFormattingRule).replaceFirst("\\$1");
1201           numFormatCopy.setNationalPrefixFormattingRule(nationalPrefixFormattingRule);
1202         } else {
1203           // We don't want to have a rule for how to format the national prefix if there isn't one.
1204           numFormatCopy.clearNationalPrefixFormattingRule();
1205         }
1206       }
1207       formattedNumber.append(
1208           formatNsnUsingPattern(nationalSignificantNumber, numFormatCopy, numberFormat));
1209     }
1210     maybeAppendFormattedExtension(number, metadata, numberFormat, formattedNumber);
1211     prefixNumberWithCountryCallingCode(countryCallingCode, numberFormat, formattedNumber);
1212     return formattedNumber.toString();
1213   }
1214 
1215   /**
1216    * Formats a phone number in national format for dialing using the carrier as specified in the
1217    * {@code carrierCode}. The {@code carrierCode} will always be used regardless of whether the
1218    * phone number already has a preferred domestic carrier code stored. If {@code carrierCode}
1219    * contains an empty string, returns the number in national format without any carrier code.
1220    *
1221    * @param number  the phone number to be formatted
1222    * @param carrierCode  the carrier selection code to be used
1223    * @return  the formatted phone number in national format for dialing using the carrier as
1224    *          specified in the {@code carrierCode}
1225    */
1226   public String formatNationalNumberWithCarrierCode(PhoneNumber number, String carrierCode) {
1227     int countryCallingCode = number.getCountryCode();
1228     String nationalSignificantNumber = getNationalSignificantNumber(number);
1229     if (!hasValidCountryCallingCode(countryCallingCode)) {
1230       return nationalSignificantNumber;
1231     }
1232 
1233     // Note getRegionCodeForCountryCode() is used because formatting information for regions which
1234     // share a country calling code is contained by only one region for performance reasons. For
1235     // example, for NANPA regions it will be contained in the metadata for US.
1236     String regionCode = getRegionCodeForCountryCode(countryCallingCode);
1237     // Metadata cannot be null because the country calling code is valid.
1238     PhoneMetadata metadata = getMetadataForRegionOrCallingCode(countryCallingCode, regionCode);
1239 
1240     StringBuilder formattedNumber = new StringBuilder(20);
1241     formattedNumber.append(formatNsn(nationalSignificantNumber, metadata,
1242                                      PhoneNumberFormat.NATIONAL, carrierCode));
1243     maybeAppendFormattedExtension(number, metadata, PhoneNumberFormat.NATIONAL, formattedNumber);
1244     prefixNumberWithCountryCallingCode(countryCallingCode, PhoneNumberFormat.NATIONAL,
1245                                        formattedNumber);
1246     return formattedNumber.toString();
1247   }
1248 
1249   private PhoneMetadata getMetadataForRegionOrCallingCode(
1250       int countryCallingCode, String regionCode) {
1251     return REGION_CODE_FOR_NON_GEO_ENTITY.equals(regionCode)
1252         ? getMetadataForNonGeographicalRegion(countryCallingCode)
1253         : getMetadataForRegion(regionCode);
1254   }
1255 
1256   /**
1257    * Formats a phone number in national format for dialing using the carrier as specified in the
1258    * preferredDomesticCarrierCode field of the PhoneNumber object passed in. If that is missing,
1259    * use the {@code fallbackCarrierCode} passed in instead. If there is no
1260    * {@code preferredDomesticCarrierCode}, and the {@code fallbackCarrierCode} contains an empty
1261    * string, return the number in national format without any carrier code.
1262    *
1263    * <p>Use {@link #formatNationalNumberWithCarrierCode} instead if the carrier code passed in
1264    * should take precedence over the number's {@code preferredDomesticCarrierCode} when formatting.
1265    *
1266    * @param number  the phone number to be formatted
1267    * @param fallbackCarrierCode  the carrier selection code to be used, if none is found in the
1268    *     phone number itself
1269    * @return  the formatted phone number in national format for dialing using the number's
1270    *     {@code preferredDomesticCarrierCode}, or the {@code fallbackCarrierCode} passed in if
1271    *     none is found
1272    */
1273   public String formatNationalNumberWithPreferredCarrierCode(PhoneNumber number,
1274                                                              String fallbackCarrierCode) {
1275     return formatNationalNumberWithCarrierCode(number, number.hasPreferredDomesticCarrierCode()
1276                                                        ? number.getPreferredDomesticCarrierCode()
1277                                                        : fallbackCarrierCode);
1278   }
1279 
1280   /**
1281    * Returns a number formatted in such a way that it can be dialed from a mobile phone in a
1282    * specific region. If the number cannot be reached from the region (e.g. some countries block
1283    * toll-free numbers from being called outside of the country), the method returns an empty
1284    * string.
1285    *
1286    * @param number  the phone number to be formatted
1287    * @param regionCallingFrom  the region where the call is being placed
1288    * @param withFormatting  whether the number should be returned with formatting symbols, such as
1289    *     spaces and dashes.
1290    * @return  the formatted phone number
1291    */
1292   public String formatNumberForMobileDialing(PhoneNumber number, String regionCallingFrom,
1293                                              boolean withFormatting) {
1294     int countryCallingCode = number.getCountryCode();
1295     if (!hasValidCountryCallingCode(countryCallingCode)) {
1296       return number.hasRawInput() ? number.getRawInput() : "";
1297     }
1298 
1299     String formattedNumber = "";
1300     // Clear the extension, as that part cannot normally be dialed together with the main number.
1301     PhoneNumber numberNoExt = new PhoneNumber().mergeFrom(number).clearExtension();
1302     String regionCode = getRegionCodeForCountryCode(countryCallingCode);
1303     PhoneNumberType numberType = getNumberType(numberNoExt);
1304     boolean isValidNumber = (numberType != PhoneNumberType.UNKNOWN);
1305     if (regionCallingFrom.equals(regionCode)) {
1306       boolean isFixedLineOrMobile =
1307           (numberType == PhoneNumberType.FIXED_LINE) || (numberType == PhoneNumberType.MOBILE) ||
1308           (numberType == PhoneNumberType.FIXED_LINE_OR_MOBILE);
1309       // Carrier codes may be needed in some countries. We handle this here.
1310       if (regionCode.equals("CO") && numberType == PhoneNumberType.FIXED_LINE) {
1311         formattedNumber =
1312             formatNationalNumberWithCarrierCode(numberNoExt, COLOMBIA_MOBILE_TO_FIXED_LINE_PREFIX);
1313       } else if (regionCode.equals("BR") && isFixedLineOrMobile) {
1314         formattedNumber = numberNoExt.hasPreferredDomesticCarrierCode()
1315             ? formattedNumber = formatNationalNumberWithPreferredCarrierCode(numberNoExt, "")
1316             // Brazilian fixed line and mobile numbers need to be dialed with a carrier code when
1317             // called within Brazil. Without that, most of the carriers won't connect the call.
1318             // Because of that, we return an empty string here.
1319             : "";
1320       } else if (isValidNumber && regionCode.equals("HU")) {
1321         // The national format for HU numbers doesn't contain the national prefix, because that is
1322         // how numbers are normally written down. However, the national prefix is obligatory when
1323         // dialing from a mobile phone, except for short numbers. As a result, we add it back here
1324         // if it is a valid regular length phone number.
1325         formattedNumber =
1326             getNddPrefixForRegion(regionCode, true /* strip non-digits */) +
1327             " " + format(numberNoExt, PhoneNumberFormat.NATIONAL);
1328       } else if (countryCallingCode == NANPA_COUNTRY_CODE) {
1329         // For NANPA countries, we output international format for numbers that can be dialed
1330         // internationally, since that always works, except for numbers which might potentially be
1331         // short numbers, which are always dialled in national format.
1332         PhoneMetadata regionMetadata = getMetadataForRegion(regionCallingFrom);
1333         if (canBeInternationallyDialled(numberNoExt) &&
1334             !isShorterThanPossibleNormalNumber(regionMetadata,
1335                 getNationalSignificantNumber(numberNoExt))) {
1336           formattedNumber = format(numberNoExt, PhoneNumberFormat.INTERNATIONAL);
1337         } else {
1338           formattedNumber = format(numberNoExt, PhoneNumberFormat.NATIONAL);
1339         }
1340       } else {
1341         // For non-geographical countries, and Mexican and Chilean fixed line and mobile numbers, we
1342         // output international format for numbers that can be dialed internationally as that always
1343         // works.
1344         if ((regionCode.equals(REGION_CODE_FOR_NON_GEO_ENTITY) ||
1345             // MX fixed line and mobile numbers should always be formatted in international format,
1346             // even when dialed within MX. For national format to work, a carrier code needs to be
1347             // used, and the correct carrier code depends on if the caller and callee are from the
1348             // same local area. It is trickier to get that to work correctly than using
1349             // international format, which is tested to work fine on all carriers.
1350             // CL fixed line numbers need the national prefix when dialing in the national format,
1351             // but don't have it when used for display. The reverse is true for mobile numbers.
1352             // As a result, we output them in the international format to make it work.
1353             ((regionCode.equals("MX") || regionCode.equals("CL")) &&
1354              isFixedLineOrMobile)) &&
1355             canBeInternationallyDialled(numberNoExt)) {
1356           formattedNumber = format(numberNoExt, PhoneNumberFormat.INTERNATIONAL);
1357         } else {
1358           formattedNumber = format(numberNoExt, PhoneNumberFormat.NATIONAL);
1359         }
1360       }
1361     } else if (isValidNumber && canBeInternationallyDialled(numberNoExt)) {
1362       // We assume that short numbers are not diallable from outside their region, so if a number
1363       // is not a valid regular length phone number, we treat it as if it cannot be internationally
1364       // dialled.
1365       return withFormatting ? format(numberNoExt, PhoneNumberFormat.INTERNATIONAL)
1366                             : format(numberNoExt, PhoneNumberFormat.E164);
1367     }
1368     return withFormatting ? formattedNumber
1369                           : normalizeDiallableCharsOnly(formattedNumber);
1370   }
1371 
1372   /**
1373    * Formats a phone number for out-of-country dialing purposes. If no regionCallingFrom is
1374    * supplied, we format the number in its INTERNATIONAL format. If the country calling code is the
1375    * same as that of the region where the number is from, then NATIONAL formatting will be applied.
1376    *
1377    * <p>If the number itself has a country calling code of zero or an otherwise invalid country
1378    * calling code, then we return the number with no formatting applied.
1379    *
1380    * <p>Note this function takes care of the case for calling inside of NANPA and between Russia and
1381    * Kazakhstan (who share the same country calling code). In those cases, no international prefix
1382    * is used. For regions which have multiple international prefixes, the number in its
1383    * INTERNATIONAL format will be returned instead.
1384    *
1385    * @param number               the phone number to be formatted
1386    * @param regionCallingFrom    the region where the call is being placed
1387    * @return  the formatted phone number
1388    */
1389   public String formatOutOfCountryCallingNumber(PhoneNumber number,
1390                                                 String regionCallingFrom) {
1391     if (!isValidRegionCode(regionCallingFrom)) {
1392       logger.log(Level.WARNING,
1393                  "Trying to format number from invalid region "
1394                  + regionCallingFrom
1395                  + ". International formatting applied.");
1396       return format(number, PhoneNumberFormat.INTERNATIONAL);
1397     }
1398     int countryCallingCode = number.getCountryCode();
1399     String nationalSignificantNumber = getNationalSignificantNumber(number);
1400     if (!hasValidCountryCallingCode(countryCallingCode)) {
1401       return nationalSignificantNumber;
1402     }
1403     if (countryCallingCode == NANPA_COUNTRY_CODE) {
1404       if (isNANPACountry(regionCallingFrom)) {
1405         // For NANPA regions, return the national format for these regions but prefix it with the
1406         // country calling code.
1407         return countryCallingCode + " " + format(number, PhoneNumberFormat.NATIONAL);
1408       }
1409     } else if (countryCallingCode == getCountryCodeForValidRegion(regionCallingFrom)) {
1410       // If regions share a country calling code, the country calling code need not be dialled.
1411       // This also applies when dialling within a region, so this if clause covers both these cases.
1412       // Technically this is the case for dialling from La Reunion to other overseas departments of
1413       // France (French Guiana, Martinique, Guadeloupe), but not vice versa - so we don't cover this
1414       // edge case for now and for those cases return the version including country calling code.
1415       // Details here: http://www.petitfute.com/voyage/225-info-pratiques-reunion
1416       return format(number, PhoneNumberFormat.NATIONAL);
1417     }
1418     // Metadata cannot be null because we checked 'isValidRegionCode()' above.
1419     PhoneMetadata metadataForRegionCallingFrom = getMetadataForRegion(regionCallingFrom);
1420     String internationalPrefix = metadataForRegionCallingFrom.getInternationalPrefix();
1421 
1422     // For regions that have multiple international prefixes, the international format of the
1423     // number is returned, unless there is a preferred international prefix.
1424     String internationalPrefixForFormatting = "";
1425     if (UNIQUE_INTERNATIONAL_PREFIX.matcher(internationalPrefix).matches()) {
1426       internationalPrefixForFormatting = internationalPrefix;
1427     } else if (metadataForRegionCallingFrom.hasPreferredInternationalPrefix()) {
1428       internationalPrefixForFormatting =
1429           metadataForRegionCallingFrom.getPreferredInternationalPrefix();
1430     }
1431 
1432     String regionCode = getRegionCodeForCountryCode(countryCallingCode);
1433     // Metadata cannot be null because the country calling code is valid.
1434     PhoneMetadata metadataForRegion =
1435         getMetadataForRegionOrCallingCode(countryCallingCode, regionCode);
1436     String formattedNationalNumber =
1437         formatNsn(nationalSignificantNumber, metadataForRegion, PhoneNumberFormat.INTERNATIONAL);
1438     StringBuilder formattedNumber = new StringBuilder(formattedNationalNumber);
1439     maybeAppendFormattedExtension(number, metadataForRegion, PhoneNumberFormat.INTERNATIONAL,
1440                                   formattedNumber);
1441     if (internationalPrefixForFormatting.length() > 0) {
1442       formattedNumber.insert(0, " ").insert(0, countryCallingCode).insert(0, " ")
1443           .insert(0, internationalPrefixForFormatting);
1444     } else {
1445       prefixNumberWithCountryCallingCode(countryCallingCode,
1446                                          PhoneNumberFormat.INTERNATIONAL,
1447                                          formattedNumber);
1448     }
1449     return formattedNumber.toString();
1450   }
1451 
1452   /**
1453    * Formats a phone number using the original phone number format that the number is parsed from.
1454    * The original format is embedded in the country_code_source field of the PhoneNumber object
1455    * passed in. If such information is missing, the number will be formatted into the NATIONAL
1456    * format by default. When the number contains a leading zero and this is unexpected for this
1457    * country, or we don't have a formatting pattern for the number, the method returns the raw input
1458    * when it is available.
1459    *
1460    * Note this method guarantees no digit will be inserted, removed or modified as a result of
1461    * formatting.
1462    *
1463    * @param number  the phone number that needs to be formatted in its original number format
1464    * @param regionCallingFrom  the region whose IDD needs to be prefixed if the original number
1465    *     has one
1466    * @return  the formatted phone number in its original number format
1467    */
1468   public String formatInOriginalFormat(PhoneNumber number, String regionCallingFrom) {
1469     if (number.hasRawInput() &&
1470         (hasUnexpectedItalianLeadingZero(number) || !hasFormattingPatternForNumber(number))) {
1471       // We check if we have the formatting pattern because without that, we might format the number
1472       // as a group without national prefix.
1473       return number.getRawInput();
1474     }
1475     if (!number.hasCountryCodeSource()) {
1476       return format(number, PhoneNumberFormat.NATIONAL);
1477     }
1478     String formattedNumber;
1479     switch (number.getCountryCodeSource()) {
1480       case FROM_NUMBER_WITH_PLUS_SIGN:
1481         formattedNumber = format(number, PhoneNumberFormat.INTERNATIONAL);
1482         break;
1483       case FROM_NUMBER_WITH_IDD:
1484         formattedNumber = formatOutOfCountryCallingNumber(number, regionCallingFrom);
1485         break;
1486       case FROM_NUMBER_WITHOUT_PLUS_SIGN:
1487         formattedNumber = format(number, PhoneNumberFormat.INTERNATIONAL).substring(1);
1488         break;
1489       case FROM_DEFAULT_COUNTRY:
1490         // Fall-through to default case.
1491       default:
1492         String regionCode = getRegionCodeForCountryCode(number.getCountryCode());
1493         // We strip non-digits from the NDD here, and from the raw input later, so that we can
1494         // compare them easily.
1495         String nationalPrefix = getNddPrefixForRegion(regionCode, true /* strip non-digits */);
1496         String nationalFormat = format(number, PhoneNumberFormat.NATIONAL);
1497         if (nationalPrefix == null || nationalPrefix.length() == 0) {
1498           // If the region doesn't have a national prefix at all, we can safely return the national
1499           // format without worrying about a national prefix being added.
1500           formattedNumber = nationalFormat;
1501           break;
1502         }
1503         // Otherwise, we check if the original number was entered with a national prefix.
1504         if (rawInputContainsNationalPrefix(
1505             number.getRawInput(), nationalPrefix, regionCode)) {
1506           // If so, we can safely return the national format.
1507           formattedNumber = nationalFormat;
1508           break;
1509         }
1510         // Metadata cannot be null here because getNddPrefixForRegion() (above) returns null if
1511         // there is no metadata for the region.
1512         PhoneMetadata metadata = getMetadataForRegion(regionCode);
1513         String nationalNumber = getNationalSignificantNumber(number);
1514         NumberFormat formatRule =
1515             chooseFormattingPatternForNumber(metadata.numberFormats(), nationalNumber);
1516         // The format rule could still be null here if the national number was 0 and there was no
1517         // raw input (this should not be possible for numbers generated by the phonenumber library
1518         // as they would also not have a country calling code and we would have exited earlier).
1519         if (formatRule == null) {
1520           formattedNumber = nationalFormat;
1521           break;
1522         }
1523         // When the format we apply to this number doesn't contain national prefix, we can just
1524         // return the national format.
1525         // TODO: Refactor the code below with the code in
1526         // isNationalPrefixPresentIfRequired.
1527         String candidateNationalPrefixRule = formatRule.getNationalPrefixFormattingRule();
1528         // We assume that the first-group symbol will never be _before_ the national prefix.
1529         int indexOfFirstGroup = candidateNationalPrefixRule.indexOf("$1");
1530         if (indexOfFirstGroup <= 0) {
1531           formattedNumber = nationalFormat;
1532           break;
1533         }
1534         candidateNationalPrefixRule =
1535             candidateNationalPrefixRule.substring(0, indexOfFirstGroup);
1536         candidateNationalPrefixRule = normalizeDigitsOnly(candidateNationalPrefixRule);
1537         if (candidateNationalPrefixRule.length() == 0) {
1538           // National prefix not used when formatting this number.
1539           formattedNumber = nationalFormat;
1540           break;
1541         }
1542         // Otherwise, we need to remove the national prefix from our output.
1543         NumberFormat numFormatCopy = new NumberFormat();
1544         numFormatCopy.mergeFrom(formatRule);
1545         numFormatCopy.clearNationalPrefixFormattingRule();
1546         List<NumberFormat> numberFormats = new ArrayList<NumberFormat>(1);
1547         numberFormats.add(numFormatCopy);
1548         formattedNumber = formatByPattern(number, PhoneNumberFormat.NATIONAL, numberFormats);
1549         break;
1550     }
1551     String rawInput = number.getRawInput();
1552     // If no digit is inserted/removed/modified as a result of our formatting, we return the
1553     // formatted phone number; otherwise we return the raw input the user entered.
1554     if (formattedNumber != null && rawInput.length() > 0) {
1555       String normalizedFormattedNumber = normalizeDiallableCharsOnly(formattedNumber);
1556       String normalizedRawInput = normalizeDiallableCharsOnly(rawInput);
1557       if (!normalizedFormattedNumber.equals(normalizedRawInput)) {
1558         formattedNumber = rawInput;
1559       }
1560     }
1561     return formattedNumber;
1562   }
1563 
1564   // Check if rawInput, which is assumed to be in the national format, has a national prefix. The
1565   // national prefix is assumed to be in digits-only form.
1566   private boolean rawInputContainsNationalPrefix(String rawInput, String nationalPrefix,
1567       String regionCode) {
1568     String normalizedNationalNumber = normalizeDigitsOnly(rawInput);
1569     if (normalizedNationalNumber.startsWith(nationalPrefix)) {
1570       try {
1571         // Some Japanese numbers (e.g. 00777123) might be mistaken to contain the national prefix
1572         // when written without it (e.g. 0777123) if we just do prefix matching. To tackle that, we
1573         // check the validity of the number if the assumed national prefix is removed (777123 won't
1574         // be valid in Japan).
1575         return isValidNumber(
1576             parse(normalizedNationalNumber.substring(nationalPrefix.length()), regionCode));
1577       } catch (NumberParseException e) {
1578         return false;
1579       }
1580     }
1581     return false;
1582   }
1583 
1584   /**
1585    * Returns true if a number is from a region whose national significant number couldn't contain a
1586    * leading zero, but has the italian_leading_zero field set to true.
1587    */
1588   private boolean hasUnexpectedItalianLeadingZero(PhoneNumber number) {
1589     return number.isItalianLeadingZero() && !isLeadingZeroPossible(number.getCountryCode());
1590   }
1591 
1592   private boolean hasFormattingPatternForNumber(PhoneNumber number) {
1593     int countryCallingCode = number.getCountryCode();
1594     String phoneNumberRegion = getRegionCodeForCountryCode(countryCallingCode);
1595     PhoneMetadata metadata =
1596         getMetadataForRegionOrCallingCode(countryCallingCode, phoneNumberRegion);
1597     if (metadata == null) {
1598       return false;
1599     }
1600     String nationalNumber = getNationalSignificantNumber(number);
1601     NumberFormat formatRule =
1602         chooseFormattingPatternForNumber(metadata.numberFormats(), nationalNumber);
1603     return formatRule != null;
1604   }
1605 
1606   /**
1607    * Formats a phone number for out-of-country dialing purposes.
1608    *
1609    * Note that in this version, if the number was entered originally using alpha characters and
1610    * this version of the number is stored in raw_input, this representation of the number will be
1611    * used rather than the digit representation. Grouping information, as specified by characters
1612    * such as "-" and " ", will be retained.
1613    *
1614    * <p><b>Caveats:</b></p>
1615    * <ul>
1616    *  <li> This will not produce good results if the country calling code is both present in the raw
1617    *       input _and_ is the start of the national number. This is not a problem in the regions
1618    *       which typically use alpha numbers.
1619    *  <li> This will also not produce good results if the raw input has any grouping information
1620    *       within the first three digits of the national number, and if the function needs to strip
1621    *       preceding digits/words in the raw input before these digits. Normally people group the
1622    *       first three digits together so this is not a huge problem - and will be fixed if it
1623    *       proves to be so.
1624    * </ul>
1625    *
1626    * @param number  the phone number that needs to be formatted
1627    * @param regionCallingFrom  the region where the call is being placed
1628    * @return  the formatted phone number
1629    */
1630   public String formatOutOfCountryKeepingAlphaChars(PhoneNumber number,
1631                                                     String regionCallingFrom) {
1632     String rawInput = number.getRawInput();
1633     // If there is no raw input, then we can't keep alpha characters because there aren't any.
1634     // In this case, we return formatOutOfCountryCallingNumber.
1635     if (rawInput.length() == 0) {
1636       return formatOutOfCountryCallingNumber(number, regionCallingFrom);
1637     }
1638     int countryCode = number.getCountryCode();
1639     if (!hasValidCountryCallingCode(countryCode)) {
1640       return rawInput;
1641     }
1642     // Strip any prefix such as country calling code, IDD, that was present. We do this by comparing
1643     // the number in raw_input with the parsed number.
1644     // To do this, first we normalize punctuation. We retain number grouping symbols such as " "
1645     // only.
1646     rawInput = normalizeHelper(rawInput, ALL_PLUS_NUMBER_GROUPING_SYMBOLS, true);
1647     // Now we trim everything before the first three digits in the parsed number. We choose three
1648     // because all valid alpha numbers have 3 digits at the start - if it does not, then we don't
1649     // trim anything at all. Similarly, if the national number was less than three digits, we don't
1650     // trim anything at all.
1651     String nationalNumber = getNationalSignificantNumber(number);
1652     if (nationalNumber.length() > 3) {
1653       int firstNationalNumberDigit = rawInput.indexOf(nationalNumber.substring(0, 3));
1654       if (firstNationalNumberDigit != -1) {
1655         rawInput = rawInput.substring(firstNationalNumberDigit);
1656       }
1657     }
1658     PhoneMetadata metadataForRegionCallingFrom = getMetadataForRegion(regionCallingFrom);
1659     if (countryCode == NANPA_COUNTRY_CODE) {
1660       if (isNANPACountry(regionCallingFrom)) {
1661         return countryCode + " " + rawInput;
1662       }
1663     } else if (metadataForRegionCallingFrom != null &&
1664                countryCode == getCountryCodeForValidRegion(regionCallingFrom)) {
1665       NumberFormat formattingPattern =
1666           chooseFormattingPatternForNumber(metadataForRegionCallingFrom.numberFormats(),
1667                                            nationalNumber);
1668       if (formattingPattern == null) {
1669         // If no pattern above is matched, we format the original input.
1670         return rawInput;
1671       }
1672       NumberFormat newFormat = new NumberFormat();
1673       newFormat.mergeFrom(formattingPattern);
1674       // The first group is the first group of digits that the user wrote together.
1675       newFormat.setPattern("(\\d+)(.*)");
1676       // Here we just concatenate them back together after the national prefix has been fixed.
1677       newFormat.setFormat("$1$2");
1678       // Now we format using this pattern instead of the default pattern, but with the national
1679       // prefix prefixed if necessary.
1680       // This will not work in the cases where the pattern (and not the leading digits) decide
1681       // whether a national prefix needs to be used, since we have overridden the pattern to match
1682       // anything, but that is not the case in the metadata to date.
1683       return formatNsnUsingPattern(rawInput, newFormat, PhoneNumberFormat.NATIONAL);
1684     }
1685     String internationalPrefixForFormatting = "";
1686     // If an unsupported region-calling-from is entered, or a country with multiple international
1687     // prefixes, the international format of the number is returned, unless there is a preferred
1688     // international prefix.
1689     if (metadataForRegionCallingFrom != null) {
1690       String internationalPrefix = metadataForRegionCallingFrom.getInternationalPrefix();
1691       internationalPrefixForFormatting =
1692           UNIQUE_INTERNATIONAL_PREFIX.matcher(internationalPrefix).matches()
1693           ? internationalPrefix
1694           : metadataForRegionCallingFrom.getPreferredInternationalPrefix();
1695     }
1696     StringBuilder formattedNumber = new StringBuilder(rawInput);
1697     String regionCode = getRegionCodeForCountryCode(countryCode);
1698     // Metadata cannot be null because the country calling code is valid.
1699     PhoneMetadata metadataForRegion = getMetadataForRegionOrCallingCode(countryCode, regionCode);
1700     maybeAppendFormattedExtension(number, metadataForRegion,
1701                                   PhoneNumberFormat.INTERNATIONAL, formattedNumber);
1702     if (internationalPrefixForFormatting.length() > 0) {
1703       formattedNumber.insert(0, " ").insert(0, countryCode).insert(0, " ")
1704           .insert(0, internationalPrefixForFormatting);
1705     } else {
1706       // Invalid region entered as country-calling-from (so no metadata was found for it) or the
1707       // region chosen has multiple international dialling prefixes.
1708       logger.log(Level.WARNING,
1709                  "Trying to format number from invalid region "
1710                  + regionCallingFrom
1711                  + ". International formatting applied.");
1712       prefixNumberWithCountryCallingCode(countryCode,
1713                                          PhoneNumberFormat.INTERNATIONAL,
1714                                          formattedNumber);
1715     }
1716     return formattedNumber.toString();
1717   }
1718 
1719   /**
1720    * Gets the national significant number of the a phone number. Note a national significant number
1721    * doesn't contain a national prefix or any formatting.
1722    *
1723    * @param number  the phone number for which the national significant number is needed
1724    * @return  the national significant number of the PhoneNumber object passed in
1725    */
1726   public String getNationalSignificantNumber(PhoneNumber number) {
1727     // If leading zero(s) have been set, we prefix this now. Note this is not a national prefix.
1728     StringBuilder nationalNumber = new StringBuilder();
1729     if (number.isItalianLeadingZero()) {
1730       char[] zeros = new char[number.getNumberOfLeadingZeros()];
1731       Arrays.fill(zeros, '0');
1732       nationalNumber.append(new String(zeros));
1733     }
1734     nationalNumber.append(number.getNationalNumber());
1735     return nationalNumber.toString();
1736   }
1737 
1738   /**
1739    * A helper function that is used by format and formatByPattern.
1740    */
1741   private void prefixNumberWithCountryCallingCode(int countryCallingCode,
1742                                                   PhoneNumberFormat numberFormat,
1743                                                   StringBuilder formattedNumber) {
1744     switch (numberFormat) {
1745       case E164:
1746         formattedNumber.insert(0, countryCallingCode).insert(0, PLUS_SIGN);
1747         return;
1748       case INTERNATIONAL:
1749         formattedNumber.insert(0, " ").insert(0, countryCallingCode).insert(0, PLUS_SIGN);
1750         return;
1751       case RFC3966:
1752         formattedNumber.insert(0, "-").insert(0, countryCallingCode).insert(0, PLUS_SIGN)
1753             .insert(0, RFC3966_PREFIX);
1754         return;
1755       case NATIONAL:
1756       default:
1757         return;
1758     }
1759   }
1760 
1761   // Simple wrapper of formatNsn for the common case of no carrier code.
1762   private String formatNsn(String number, PhoneMetadata metadata, PhoneNumberFormat numberFormat) {
1763     return formatNsn(number, metadata, numberFormat, null);
1764   }
1765 
1766   // Note in some regions, the national number can be written in two completely different ways
1767   // depending on whether it forms part of the NATIONAL format or INTERNATIONAL format. The
1768   // numberFormat parameter here is used to specify which format to use for those cases. If a
1769   // carrierCode is specified, this will be inserted into the formatted string to replace $CC.
1770   private String formatNsn(String number,
1771                            PhoneMetadata metadata,
1772                            PhoneNumberFormat numberFormat,
1773                            String carrierCode) {
1774     List<NumberFormat> intlNumberFormats = metadata.intlNumberFormats();
1775     // When the intlNumberFormats exists, we use that to format national number for the
1776     // INTERNATIONAL format instead of using the numberDesc.numberFormats.
1777     List<NumberFormat> availableFormats =
1778         (intlNumberFormats.size() == 0 || numberFormat == PhoneNumberFormat.NATIONAL)
1779         ? metadata.numberFormats()
1780         : metadata.intlNumberFormats();
1781     NumberFormat formattingPattern = chooseFormattingPatternForNumber(availableFormats, number);
1782     return (formattingPattern == null)
1783         ? number
1784         : formatNsnUsingPattern(number, formattingPattern, numberFormat, carrierCode);
1785   }
1786 
1787   NumberFormat chooseFormattingPatternForNumber(List<NumberFormat> availableFormats,
1788                                                 String nationalNumber) {
1789     for (NumberFormat numFormat : availableFormats) {
1790       int size = numFormat.leadingDigitsPatternSize();
1791       if (size == 0 || regexCache.getPatternForRegex(
1792               // We always use the last leading_digits_pattern, as it is the most detailed.
1793               numFormat.getLeadingDigitsPattern(size - 1)).matcher(nationalNumber).lookingAt()) {
1794         Matcher m = regexCache.getPatternForRegex(numFormat.getPattern()).matcher(nationalNumber);
1795         if (m.matches()) {
1796           return numFormat;
1797         }
1798       }
1799     }
1800     return null;
1801   }
1802 
1803   // Simple wrapper of formatNsnUsingPattern for the common case of no carrier code.
1804   String formatNsnUsingPattern(String nationalNumber,
1805                                NumberFormat formattingPattern,
1806                                PhoneNumberFormat numberFormat) {
1807     return formatNsnUsingPattern(nationalNumber, formattingPattern, numberFormat, null);
1808   }
1809 
1810   // Note that carrierCode is optional - if null or an empty string, no carrier code replacement
1811   // will take place.
1812   private String formatNsnUsingPattern(String nationalNumber,
1813                                        NumberFormat formattingPattern,
1814                                        PhoneNumberFormat numberFormat,
1815                                        String carrierCode) {
1816     String numberFormatRule = formattingPattern.getFormat();
1817     Matcher m =
1818         regexCache.getPatternForRegex(formattingPattern.getPattern()).matcher(nationalNumber);
1819     String formattedNationalNumber = "";
1820     if (numberFormat == PhoneNumberFormat.NATIONAL &&
1821         carrierCode != null && carrierCode.length() > 0 &&
1822         formattingPattern.getDomesticCarrierCodeFormattingRule().length() > 0) {
1823       // Replace the $CC in the formatting rule with the desired carrier code.
1824       String carrierCodeFormattingRule = formattingPattern.getDomesticCarrierCodeFormattingRule();
1825       carrierCodeFormattingRule =
1826           CC_PATTERN.matcher(carrierCodeFormattingRule).replaceFirst(carrierCode);
1827       // Now replace the $FG in the formatting rule with the first group and the carrier code
1828       // combined in the appropriate way.
1829       numberFormatRule = FIRST_GROUP_PATTERN.matcher(numberFormatRule)
1830           .replaceFirst(carrierCodeFormattingRule);
1831       formattedNationalNumber = m.replaceAll(numberFormatRule);
1832     } else {
1833       // Use the national prefix formatting rule instead.
1834       String nationalPrefixFormattingRule = formattingPattern.getNationalPrefixFormattingRule();
1835       if (numberFormat == PhoneNumberFormat.NATIONAL &&
1836           nationalPrefixFormattingRule != null &&
1837           nationalPrefixFormattingRule.length() > 0) {
1838         Matcher firstGroupMatcher = FIRST_GROUP_PATTERN.matcher(numberFormatRule);
1839         formattedNationalNumber =
1840             m.replaceAll(firstGroupMatcher.replaceFirst(nationalPrefixFormattingRule));
1841       } else {
1842         formattedNationalNumber = m.replaceAll(numberFormatRule);
1843       }
1844     }
1845     if (numberFormat == PhoneNumberFormat.RFC3966) {
1846       // Strip any leading punctuation.
1847       Matcher matcher = SEPARATOR_PATTERN.matcher(formattedNationalNumber);
1848       if (matcher.lookingAt()) {
1849         formattedNationalNumber = matcher.replaceFirst("");
1850       }
1851       // Replace the rest with a dash between each number group.
1852       formattedNationalNumber = matcher.reset(formattedNationalNumber).replaceAll("-");
1853     }
1854     return formattedNationalNumber;
1855   }
1856 
1857   /**
1858    * Gets a valid number for the specified region.
1859    *
1860    * @param regionCode  the region for which an example number is needed
1861    * @return  a valid fixed-line number for the specified region. Returns null when the metadata
1862    *    does not contain such information, or the region 001 is passed in. For 001 (representing
1863    *    non-geographical numbers), call {@link #getExampleNumberForNonGeoEntity} instead.
1864    */
1865   public PhoneNumber getExampleNumber(String regionCode) {
1866     return getExampleNumberForType(regionCode, PhoneNumberType.FIXED_LINE);
1867   }
1868 
1869   /**
1870    * Gets a valid number for the specified region and number type.
1871    *
1872    * @param regionCode  the region for which an example number is needed
1873    * @param type  the type of number that is needed
1874    * @return  a valid number for the specified region and type. Returns null when the metadata
1875    *     does not contain such information or if an invalid region or region 001 was entered.
1876    *     For 001 (representing non-geographical numbers), call
1877    *     {@link #getExampleNumberForNonGeoEntity} instead.
1878    */
1879   public PhoneNumber getExampleNumberForType(String regionCode, PhoneNumberType type) {
1880     // Check the region code is valid.
1881     if (!isValidRegionCode(regionCode)) {
1882       logger.log(Level.WARNING, "Invalid or unknown region code provided: " + regionCode);
1883       return null;
1884     }
1885     PhoneNumberDesc desc = getNumberDescByType(getMetadataForRegion(regionCode), type);
1886     try {
1887       if (desc.hasExampleNumber()) {
1888         return parse(desc.getExampleNumber(), regionCode);
1889       }
1890     } catch (NumberParseException e) {
1891       logger.log(Level.SEVERE, e.toString());
1892     }
1893     return null;
1894   }
1895 
1896   /**
1897    * Gets a valid number for the specified country calling code for a non-geographical entity.
1898    *
1899    * @param countryCallingCode  the country calling code for a non-geographical entity
1900    * @return  a valid number for the non-geographical entity. Returns null when the metadata
1901    *    does not contain such information, or the country calling code passed in does not belong
1902    *    to a non-geographical entity.
1903    */
1904   public PhoneNumber getExampleNumberForNonGeoEntity(int countryCallingCode) {
1905     PhoneMetadata metadata = getMetadataForNonGeographicalRegion(countryCallingCode);
1906     if (metadata != null) {
1907       PhoneNumberDesc desc = metadata.getGeneralDesc();
1908       try {
1909         if (desc.hasExampleNumber()) {
1910           return parse("+" + countryCallingCode + desc.getExampleNumber(), "ZZ");
1911         }
1912       } catch (NumberParseException e) {
1913         logger.log(Level.SEVERE, e.toString());
1914       }
1915     } else {
1916       logger.log(Level.WARNING,
1917                  "Invalid or unknown country calling code provided: " + countryCallingCode);
1918     }
1919     return null;
1920   }
1921 
1922   /**
1923    * Appends the formatted extension of a phone number to formattedNumber, if the phone number had
1924    * an extension specified.
1925    */
1926   private void maybeAppendFormattedExtension(PhoneNumber number, PhoneMetadata metadata,
1927                                              PhoneNumberFormat numberFormat,
1928                                              StringBuilder formattedNumber) {
1929     if (number.hasExtension() && number.getExtension().length() > 0) {
1930       if (numberFormat == PhoneNumberFormat.RFC3966) {
1931         formattedNumber.append(RFC3966_EXTN_PREFIX).append(number.getExtension());
1932       } else {
1933         if (metadata.hasPreferredExtnPrefix()) {
1934           formattedNumber.append(metadata.getPreferredExtnPrefix()).append(number.getExtension());
1935         } else {
1936           formattedNumber.append(DEFAULT_EXTN_PREFIX).append(number.getExtension());
1937         }
1938       }
1939     }
1940   }
1941 
1942   PhoneNumberDesc getNumberDescByType(PhoneMetadata metadata, PhoneNumberType type) {
1943     switch (type) {
1944       case PREMIUM_RATE:
1945         return metadata.getPremiumRate();
1946       case TOLL_FREE:
1947         return metadata.getTollFree();
1948       case MOBILE:
1949         return metadata.getMobile();
1950       case FIXED_LINE:
1951       case FIXED_LINE_OR_MOBILE:
1952         return metadata.getFixedLine();
1953       case SHARED_COST:
1954         return metadata.getSharedCost();
1955       case VOIP:
1956         return metadata.getVoip();
1957       case PERSONAL_NUMBER:
1958         return metadata.getPersonalNumber();
1959       case PAGER:
1960         return metadata.getPager();
1961       case UAN:
1962         return metadata.getUan();
1963       case VOICEMAIL:
1964         return metadata.getVoicemail();
1965       default:
1966         return metadata.getGeneralDesc();
1967     }
1968   }
1969 
1970   /**
1971    * Gets the type of a phone number.
1972    *
1973    * @param number  the phone number that we want to know the type
1974    * @return  the type of the phone number
1975    */
1976   public PhoneNumberType getNumberType(PhoneNumber number) {
1977     String regionCode = getRegionCodeForNumber(number);
1978     PhoneMetadata metadata = getMetadataForRegionOrCallingCode(number.getCountryCode(), regionCode);
1979     if (metadata == null) {
1980       return PhoneNumberType.UNKNOWN;
1981     }
1982     String nationalSignificantNumber = getNationalSignificantNumber(number);
1983     return getNumberTypeHelper(nationalSignificantNumber, metadata);
1984   }
1985 
1986   private PhoneNumberType getNumberTypeHelper(String nationalNumber, PhoneMetadata metadata) {
1987     if (!isNumberMatchingDesc(nationalNumber, metadata.getGeneralDesc())) {
1988       return PhoneNumberType.UNKNOWN;
1989     }
1990 
1991     if (isNumberMatchingDesc(nationalNumber, metadata.getPremiumRate())) {
1992       return PhoneNumberType.PREMIUM_RATE;
1993     }
1994     if (isNumberMatchingDesc(nationalNumber, metadata.getTollFree())) {
1995       return PhoneNumberType.TOLL_FREE;
1996     }
1997     if (isNumberMatchingDesc(nationalNumber, metadata.getSharedCost())) {
1998       return PhoneNumberType.SHARED_COST;
1999     }
2000     if (isNumberMatchingDesc(nationalNumber, metadata.getVoip())) {
2001       return PhoneNumberType.VOIP;
2002     }
2003     if (isNumberMatchingDesc(nationalNumber, metadata.getPersonalNumber())) {
2004       return PhoneNumberType.PERSONAL_NUMBER;
2005     }
2006     if (isNumberMatchingDesc(nationalNumber, metadata.getPager())) {
2007       return PhoneNumberType.PAGER;
2008     }
2009     if (isNumberMatchingDesc(nationalNumber, metadata.getUan())) {
2010       return PhoneNumberType.UAN;
2011     }
2012     if (isNumberMatchingDesc(nationalNumber, metadata.getVoicemail())) {
2013       return PhoneNumberType.VOICEMAIL;
2014     }
2015 
2016     boolean isFixedLine = isNumberMatchingDesc(nationalNumber, metadata.getFixedLine());
2017     if (isFixedLine) {
2018       if (metadata.isSameMobileAndFixedLinePattern()) {
2019         return PhoneNumberType.FIXED_LINE_OR_MOBILE;
2020       } else if (isNumberMatchingDesc(nationalNumber, metadata.getMobile())) {
2021         return PhoneNumberType.FIXED_LINE_OR_MOBILE;
2022       }
2023       return PhoneNumberType.FIXED_LINE;
2024     }
2025     // Otherwise, test to see if the number is mobile. Only do this if certain that the patterns for
2026     // mobile and fixed line aren't the same.
2027     if (!metadata.isSameMobileAndFixedLinePattern() &&
2028         isNumberMatchingDesc(nationalNumber, metadata.getMobile())) {
2029       return PhoneNumberType.MOBILE;
2030     }
2031     return PhoneNumberType.UNKNOWN;
2032   }
2033 
2034   /**
2035    * Returns the metadata for the given region code or {@code null} if the region code is invalid
2036    * or unknown.
2037    */
2038   PhoneMetadata getMetadataForRegion(String regionCode) {
2039     if (!isValidRegionCode(regionCode)) {
2040       return null;
2041     }
2042     synchronized (regionToMetadataMap) {
2043       if (!regionToMetadataMap.containsKey(regionCode)) {
2044         // The regionCode here will be valid and won't be '001', so we don't need to worry about
2045         // what to pass in for the country calling code.
2046         loadMetadataFromFile(currentFilePrefix, regionCode, 0, metadataLoader);
2047       }
2048     }
2049     return regionToMetadataMap.get(regionCode);
2050   }
2051 
2052   PhoneMetadata getMetadataForNonGeographicalRegion(int countryCallingCode) {
2053     synchronized (countryCodeToNonGeographicalMetadataMap) {
2054       if (!countryCallingCodeToRegionCodeMap.containsKey(countryCallingCode)) {
2055         return null;
2056       }
2057       if (!countryCodeToNonGeographicalMetadataMap.containsKey(countryCallingCode)) {
2058         loadMetadataFromFile(
2059             currentFilePrefix, REGION_CODE_FOR_NON_GEO_ENTITY, countryCallingCode, metadataLoader);
2060       }
2061     }
2062     return countryCodeToNonGeographicalMetadataMap.get(countryCallingCode);
2063   }
2064 
2065   boolean isNumberPossibleForDesc(String nationalNumber, PhoneNumberDesc numberDesc) {
2066     Matcher possibleNumberPatternMatcher =
2067         regexCache.getPatternForRegex(numberDesc.getPossibleNumberPattern())
2068             .matcher(nationalNumber);
2069     return possibleNumberPatternMatcher.matches();
2070   }
2071 
2072   boolean isNumberMatchingDesc(String nationalNumber, PhoneNumberDesc numberDesc) {
2073     Matcher nationalNumberPatternMatcher =
2074         regexCache.getPatternForRegex(numberDesc.getNationalNumberPattern())
2075             .matcher(nationalNumber);
2076     return isNumberPossibleForDesc(nationalNumber, numberDesc) &&
2077         nationalNumberPatternMatcher.matches();
2078   }
2079 
2080   /**
2081    * Tests whether a phone number matches a valid pattern. Note this doesn't verify the number
2082    * is actually in use, which is impossible to tell by just looking at a number itself.
2083    *
2084    * @param number       the phone number that we want to validate
2085    * @return  a boolean that indicates whether the number is of a valid pattern
2086    */
2087   public boolean isValidNumber(PhoneNumber number) {
2088     String regionCode = getRegionCodeForNumber(number);
2089     return isValidNumberForRegion(number, regionCode);
2090   }
2091 
2092   /**
2093    * Tests whether a phone number is valid for a certain region. Note this doesn't verify the number
2094    * is actually in use, which is impossible to tell by just looking at a number itself. If the
2095    * country calling code is not the same as the country calling code for the region, this
2096    * immediately exits with false. After this, the specific number pattern rules for the region are
2097    * examined. This is useful for determining for example whether a particular number is valid for
2098    * Canada, rather than just a valid NANPA number.
2099    * Warning: In most cases, you want to use {@link #isValidNumber} instead. For example, this
2100    * method will mark numbers from British Crown dependencies such as the Isle of Man as invalid for
2101    * the region "GB" (United Kingdom), since it has its own region code, "IM", which may be
2102    * undesirable.
2103    *
2104    * @param number       the phone number that we want to validate
2105    * @param regionCode   the region that we want to validate the phone number for
2106    * @return  a boolean that indicates whether the number is of a valid pattern
2107    */
2108   public boolean isValidNumberForRegion(PhoneNumber number, String regionCode) {
2109     int countryCode = number.getCountryCode();
2110     PhoneMetadata metadata = getMetadataForRegionOrCallingCode(countryCode, regionCode);
2111     if ((metadata == null) ||
2112         (!REGION_CODE_FOR_NON_GEO_ENTITY.equals(regionCode) &&
2113          countryCode != getCountryCodeForValidRegion(regionCode))) {
2114       // Either the region code was invalid, or the country calling code for this number does not
2115       // match that of the region code.
2116       return false;
2117     }
2118     String nationalSignificantNumber = getNationalSignificantNumber(number);
2119     return getNumberTypeHelper(nationalSignificantNumber, metadata) != PhoneNumberType.UNKNOWN;
2120   }
2121 
2122   /**
2123    * Returns the region where a phone number is from. This could be used for geocoding at the region
2124    * level.
2125    *
2126    * @param number  the phone number whose origin we want to know
2127    * @return  the region where the phone number is from, or null if no region matches this calling
2128    *     code
2129    */
2130   public String getRegionCodeForNumber(PhoneNumber number) {
2131     int countryCode = number.getCountryCode();
2132     List<String> regions = countryCallingCodeToRegionCodeMap.get(countryCode);
2133     if (regions == null) {
2134       String numberString = getNationalSignificantNumber(number);
2135       logger.log(Level.WARNING,
2136                  "Missing/invalid country_code (" + countryCode + ") for number " + numberString);
2137       return null;
2138     }
2139     if (regions.size() == 1) {
2140       return regions.get(0);
2141     } else {
2142       return getRegionCodeForNumberFromRegionList(number, regions);
2143     }
2144   }
2145 
2146   private String getRegionCodeForNumberFromRegionList(PhoneNumber number,
2147                                                       List<String> regionCodes) {
2148     String nationalNumber = getNationalSignificantNumber(number);
2149     for (String regionCode : regionCodes) {
2150       // If leadingDigits is present, use this. Otherwise, do full validation.
2151       // Metadata cannot be null because the region codes come from the country calling code map.
2152       PhoneMetadata metadata = getMetadataForRegion(regionCode);
2153       if (metadata.hasLeadingDigits()) {
2154         if (regexCache.getPatternForRegex(metadata.getLeadingDigits())
2155                 .matcher(nationalNumber).lookingAt()) {
2156           return regionCode;
2157         }
2158       } else if (getNumberTypeHelper(nationalNumber, metadata) != PhoneNumberType.UNKNOWN) {
2159         return regionCode;
2160       }
2161     }
2162     return null;
2163   }
2164 
2165   /**
2166    * Returns the region code that matches the specific country calling code. In the case of no
2167    * region code being found, ZZ will be returned. In the case of multiple regions, the one
2168    * designated in the metadata as the "main" region for this calling code will be returned. If the
2169    * countryCallingCode entered is valid but doesn't match a specific region (such as in the case of
2170    * non-geographical calling codes like 800) the value "001" will be returned (corresponding to
2171    * the value for World in the UN M.49 schema).
2172    */
2173   public String getRegionCodeForCountryCode(int countryCallingCode) {
2174     List<String> regionCodes = countryCallingCodeToRegionCodeMap.get(countryCallingCode);
2175     return regionCodes == null ? UNKNOWN_REGION : regionCodes.get(0);
2176   }
2177 
2178   /**
2179    * Returns a list with the region codes that match the specific country calling code. For
2180    * non-geographical country calling codes, the region code 001 is returned. Also, in the case
2181    * of no region code being found, an empty list is returned.
2182    */
2183   public List<String> getRegionCodesForCountryCode(int countryCallingCode) {
2184     List<String> regionCodes = countryCallingCodeToRegionCodeMap.get(countryCallingCode);
2185     return Collections.unmodifiableList(regionCodes == null ? new ArrayList<String>(0)
2186                                                             : regionCodes);
2187   }
2188 
2189   /**
2190    * Returns the country calling code for a specific region. For example, this would be 1 for the
2191    * United States, and 64 for New Zealand.
2192    *
2193    * @param regionCode  the region that we want to get the country calling code for
2194    * @return  the country calling code for the region denoted by regionCode
2195    */
2196   public int getCountryCodeForRegion(String regionCode) {
2197     if (!isValidRegionCode(regionCode)) {
2198       logger.log(Level.WARNING,
2199                  "Invalid or missing region code ("
2200                   + ((regionCode == null) ? "null" : regionCode)
2201                   + ") provided.");
2202       return 0;
2203     }
2204     return getCountryCodeForValidRegion(regionCode);
2205   }
2206 
2207   /**
2208    * Returns the country calling code for a specific region. For example, this would be 1 for the
2209    * United States, and 64 for New Zealand. Assumes the region is already valid.
2210    *
2211    * @param regionCode  the region that we want to get the country calling code for
2212    * @return  the country calling code for the region denoted by regionCode
2213    * @throws IllegalArgumentException if the region is invalid
2214    */
2215   private int getCountryCodeForValidRegion(String regionCode) {
2216     PhoneMetadata metadata = getMetadataForRegion(regionCode);
2217     if (metadata == null) {
2218       throw new IllegalArgumentException("Invalid region code: " + regionCode);
2219     }
2220     return metadata.getCountryCode();
2221   }
2222 
2223   /**
2224    * Returns the national dialling prefix for a specific region. For example, this would be 1 for
2225    * the United States, and 0 for New Zealand. Set stripNonDigits to true to strip symbols like "~"
2226    * (which indicates a wait for a dialling tone) from the prefix returned. If no national prefix is
2227    * present, we return null.
2228    *
2229    * <p>Warning: Do not use this method for do-your-own formatting - for some regions, the
2230    * national dialling prefix is used only for certain types of numbers. Use the library's
2231    * formatting functions to prefix the national prefix when required.
2232    *
2233    * @param regionCode  the region that we want to get the dialling prefix for
2234    * @param stripNonDigits  true to strip non-digits from the national dialling prefix
2235    * @return  the dialling prefix for the region denoted by regionCode
2236    */
2237   public String getNddPrefixForRegion(String regionCode, boolean stripNonDigits) {
2238     PhoneMetadata metadata = getMetadataForRegion(regionCode);
2239     if (metadata == null) {
2240       logger.log(Level.WARNING,
2241                  "Invalid or missing region code ("
2242                   + ((regionCode == null) ? "null" : regionCode)
2243                   + ") provided.");
2244       return null;
2245     }
2246     String nationalPrefix = metadata.getNationalPrefix();
2247     // If no national prefix was found, we return null.
2248     if (nationalPrefix.length() == 0) {
2249       return null;
2250     }
2251     if (stripNonDigits) {
2252       // Note: if any other non-numeric symbols are ever used in national prefixes, these would have
2253       // to be removed here as well.
2254       nationalPrefix = nationalPrefix.replace("~", "");
2255     }
2256     return nationalPrefix;
2257   }
2258 
2259   /**
2260    * Checks if this is a region under the North American Numbering Plan Administration (NANPA).
2261    *
2262    * @return  true if regionCode is one of the regions under NANPA
2263    */
2264   public boolean isNANPACountry(String regionCode) {
2265     return nanpaRegions.contains(regionCode);
2266   }
2267 
2268   /**
2269    * Checks whether the country calling code is from a region whose national significant number
2270    * could contain a leading zero. An example of such a region is Italy. Returns false if no
2271    * metadata for the country is found.
2272    */
2273   boolean isLeadingZeroPossible(int countryCallingCode) {
2274     PhoneMetadata mainMetadataForCallingCode =
2275         getMetadataForRegionOrCallingCode(countryCallingCode,
2276                                           getRegionCodeForCountryCode(countryCallingCode));
2277     if (mainMetadataForCallingCode == null) {
2278       return false;
2279     }
2280     return mainMetadataForCallingCode.isLeadingZeroPossible();
2281   }
2282 
2283   /**
2284    * Checks if the number is a valid vanity (alpha) number such as 800 MICROSOFT. A valid vanity
2285    * number will start with at least 3 digits and will have three or more alpha characters. This
2286    * does not do region-specific checks - to work out if this number is actually valid for a region,
2287    * it should be parsed and methods such as {@link #isPossibleNumberWithReason} and
2288    * {@link #isValidNumber} should be used.
2289    *
2290    * @param number  the number that needs to be checked
2291    * @return  true if the number is a valid vanity number
2292    */
2293   public boolean isAlphaNumber(String number) {
2294     if (!isViablePhoneNumber(number)) {
2295       // Number is too short, or doesn't match the basic phone number pattern.
2296       return false;
2297     }
2298     StringBuilder strippedNumber = new StringBuilder(number);
2299     maybeStripExtension(strippedNumber);
2300     return VALID_ALPHA_PHONE_PATTERN.matcher(strippedNumber).matches();
2301   }
2302 
2303   /**
2304    * Convenience wrapper around {@link #isPossibleNumberWithReason}. Instead of returning the reason
2305    * for failure, this method returns a boolean value.
2306    * @param number  the number that needs to be checked
2307    * @return  true if the number is possible
2308    */
2309   public boolean isPossibleNumber(PhoneNumber number) {
2310     return isPossibleNumberWithReason(number) == ValidationResult.IS_POSSIBLE;
2311   }
2312 
2313   /**
2314    * Helper method to check a number against a particular pattern and determine whether it matches,
2315    * or is too short or too long. Currently, if a number pattern suggests that numbers of length 7
2316    * and 10 are possible, and a number in between these possible lengths is entered, such as of
2317    * length 8, this will return TOO_LONG.
2318    */
2319   private ValidationResult testNumberLengthAgainstPattern(Pattern numberPattern, String number) {
2320     Matcher numberMatcher = numberPattern.matcher(number);
2321     if (numberMatcher.matches()) {
2322       return ValidationResult.IS_POSSIBLE;
2323     }
2324     if (numberMatcher.lookingAt()) {
2325       return ValidationResult.TOO_LONG;
2326     } else {
2327       return ValidationResult.TOO_SHORT;
2328     }
2329   }
2330 
2331   /**
2332    * Helper method to check whether a number is too short to be a regular length phone number in a
2333    * region.
2334    */
2335   private boolean isShorterThanPossibleNormalNumber(PhoneMetadata regionMetadata, String number) {
2336     Pattern possibleNumberPattern = regexCache.getPatternForRegex(
2337         regionMetadata.getGeneralDesc().getPossibleNumberPattern());
2338     return testNumberLengthAgainstPattern(possibleNumberPattern, number) ==
2339         ValidationResult.TOO_SHORT;
2340   }
2341 
2342   /**
2343    * Check whether a phone number is a possible number. It provides a more lenient check than
2344    * {@link #isValidNumber} in the following sense:
2345    *<ol>
2346    * <li> It only checks the length of phone numbers. In particular, it doesn't check starting
2347    *      digits of the number.
2348    * <li> It doesn't attempt to figure out the type of the number, but uses general rules which
2349    *      applies to all types of phone numbers in a region. Therefore, it is much faster than
2350    *      isValidNumber.
2351    * <li> For fixed line numbers, many regions have the concept of area code, which together with
2352    *      subscriber number constitute the national significant number. It is sometimes okay to dial
2353    *      the subscriber number only when dialing in the same area. This function will return
2354    *      true if the subscriber-number-only version is passed in. On the other hand, because
2355    *      isValidNumber validates using information on both starting digits (for fixed line
2356    *      numbers, that would most likely be area codes) and length (obviously includes the
2357    *      length of area codes for fixed line numbers), it will return false for the
2358    *      subscriber-number-only version.
2359    * </ol>
2360    * @param number  the number that needs to be checked
2361    * @return  a ValidationResult object which indicates whether the number is possible
2362    */
2363   public ValidationResult isPossibleNumberWithReason(PhoneNumber number) {
2364     String nationalNumber = getNationalSignificantNumber(number);
2365     int countryCode = number.getCountryCode();
2366     // Note: For Russian Fed and NANPA numbers, we just use the rules from the default region (US or
2367     // Russia) since the getRegionCodeForNumber will not work if the number is possible but not
2368     // valid. This would need to be revisited if the possible number pattern ever differed between
2369     // various regions within those plans.
2370     if (!hasValidCountryCallingCode(countryCode)) {
2371       return ValidationResult.INVALID_COUNTRY_CODE;
2372     }
2373     String regionCode = getRegionCodeForCountryCode(countryCode);
2374     // Metadata cannot be null because the country calling code is valid.
2375     PhoneMetadata metadata = getMetadataForRegionOrCallingCode(countryCode, regionCode);
2376     Pattern possibleNumberPattern =
2377         regexCache.getPatternForRegex(metadata.getGeneralDesc().getPossibleNumberPattern());
2378     return testNumberLengthAgainstPattern(possibleNumberPattern, nationalNumber);
2379   }
2380 
2381   /**
2382    * Check whether a phone number is a possible number given a number in the form of a string, and
2383    * the region where the number could be dialed from. It provides a more lenient check than
2384    * {@link #isValidNumber}. See {@link #isPossibleNumber(PhoneNumber)} for details.
2385    *
2386    * <p>This method first parses the number, then invokes {@link #isPossibleNumber(PhoneNumber)}
2387    * with the resultant PhoneNumber object.
2388    *
2389    * @param number  the number that needs to be checked, in the form of a string
2390    * @param regionDialingFrom  the region that we are expecting the number to be dialed from.
2391    *     Note this is different from the region where the number belongs.  For example, the number
2392    *     +1 650 253 0000 is a number that belongs to US. When written in this form, it can be
2393    *     dialed from any region. When it is written as 00 1 650 253 0000, it can be dialed from any
2394    *     region which uses an international dialling prefix of 00. When it is written as
2395    *     650 253 0000, it can only be dialed from within the US, and when written as 253 0000, it
2396    *     can only be dialed from within a smaller area in the US (Mountain View, CA, to be more
2397    *     specific).
2398    * @return  true if the number is possible
2399    */
2400   public boolean isPossibleNumber(String number, String regionDialingFrom) {
2401     try {
2402       return isPossibleNumber(parse(number, regionDialingFrom));
2403     } catch (NumberParseException e) {
2404       return false;
2405     }
2406   }
2407 
2408   /**
2409    * Attempts to extract a valid number from a phone number that is too long to be valid, and resets
2410    * the PhoneNumber object passed in to that valid version. If no valid number could be extracted,
2411    * the PhoneNumber object passed in will not be modified.
2412    * @param number a PhoneNumber object which contains a number that is too long to be valid.
2413    * @return  true if a valid phone number can be successfully extracted.
2414    */
2415   public boolean truncateTooLongNumber(PhoneNumber number) {
2416     if (isValidNumber(number)) {
2417       return true;
2418     }
2419     PhoneNumber numberCopy = new PhoneNumber();
2420     numberCopy.mergeFrom(number);
2421     long nationalNumber = number.getNationalNumber();
2422     do {
2423       nationalNumber /= 10;
2424       numberCopy.setNationalNumber(nationalNumber);
2425       if (isPossibleNumberWithReason(numberCopy) == ValidationResult.TOO_SHORT ||
2426           nationalNumber == 0) {
2427         return false;
2428       }
2429     } while (!isValidNumber(numberCopy));
2430     number.setNationalNumber(nationalNumber);
2431     return true;
2432   }
2433 
2434   /**
2435    * Gets an {@link com.google.i18n.phonenumbers.AsYouTypeFormatter} for the specific region.
2436    *
2437    * @param regionCode  the region where the phone number is being entered
2438    * @return  an {@link com.google.i18n.phonenumbers.AsYouTypeFormatter} object, which can be used
2439    *     to format phone numbers in the specific region "as you type"
2440    */
2441   public AsYouTypeFormatter getAsYouTypeFormatter(String regionCode) {
2442     return new AsYouTypeFormatter(regionCode);
2443   }
2444 
2445   // Extracts country calling code from fullNumber, returns it and places the remaining number in
2446   // nationalNumber. It assumes that the leading plus sign or IDD has already been removed. Returns
2447   // 0 if fullNumber doesn't start with a valid country calling code, and leaves nationalNumber
2448   // unmodified.
2449   int extractCountryCode(StringBuilder fullNumber, StringBuilder nationalNumber) {
2450     if ((fullNumber.length() == 0) || (fullNumber.charAt(0) == '0')) {
2451       // Country codes do not begin with a '0'.
2452       return 0;
2453     }
2454     int potentialCountryCode;
2455     int numberLength = fullNumber.length();
2456     for (int i = 1; i <= MAX_LENGTH_COUNTRY_CODE && i <= numberLength; i++) {
2457       potentialCountryCode = Integer.parseInt(fullNumber.substring(0, i));
2458       if (countryCallingCodeToRegionCodeMap.containsKey(potentialCountryCode)) {
2459         nationalNumber.append(fullNumber.substring(i));
2460         return potentialCountryCode;
2461       }
2462     }
2463     return 0;
2464   }
2465 
2466   /**
2467    * Tries to extract a country calling code from a number. This method will return zero if no
2468    * country calling code is considered to be present. Country calling codes are extracted in the
2469    * following ways:
2470    * <ul>
2471    *  <li> by stripping the international dialing prefix of the region the person is dialing from,
2472    *       if this is present in the number, and looking at the next digits
2473    *  <li> by stripping the '+' sign if present and then looking at the next digits
2474    *  <li> by comparing the start of the number and the country calling code of the default region.
2475    *       If the number is not considered possible for the numbering plan of the default region
2476    *       initially, but starts with the country calling code of this region, validation will be
2477    *       reattempted after stripping this country calling code. If this number is considered a
2478    *       possible number, then the first digits will be considered the country calling code and
2479    *       removed as such.
2480    * </ul>
2481    * It will throw a NumberParseException if the number starts with a '+' but the country calling
2482    * code supplied after this does not match that of any known region.
2483    *
2484    * @param number  non-normalized telephone number that we wish to extract a country calling
2485    *     code from - may begin with '+'
2486    * @param defaultRegionMetadata  metadata about the region this number may be from
2487    * @param nationalNumber  a string buffer to store the national significant number in, in the case
2488    *     that a country calling code was extracted. The number is appended to any existing contents.
2489    *     If no country calling code was extracted, this will be left unchanged.
2490    * @param keepRawInput  true if the country_code_source and preferred_carrier_code fields of
2491    *     phoneNumber should be populated.
2492    * @param phoneNumber  the PhoneNumber object where the country_code and country_code_source need
2493    *     to be populated. Note the country_code is always populated, whereas country_code_source is
2494    *     only populated when keepCountryCodeSource is true.
2495    * @return  the country calling code extracted or 0 if none could be extracted
2496    */
2497   // @VisibleForTesting
2498   int maybeExtractCountryCode(String number, PhoneMetadata defaultRegionMetadata,
2499                               StringBuilder nationalNumber, boolean keepRawInput,
2500                               PhoneNumber phoneNumber)
2501       throws NumberParseException {
2502     if (number.length() == 0) {
2503       return 0;
2504     }
2505     StringBuilder fullNumber = new StringBuilder(number);
2506     // Set the default prefix to be something that will never match.
2507     String possibleCountryIddPrefix = "NonMatch";
2508     if (defaultRegionMetadata != null) {
2509       possibleCountryIddPrefix = defaultRegionMetadata.getInternationalPrefix();
2510     }
2511 
2512     CountryCodeSource countryCodeSource =
2513         maybeStripInternationalPrefixAndNormalize(fullNumber, possibleCountryIddPrefix);
2514     if (keepRawInput) {
2515       phoneNumber.setCountryCodeSource(countryCodeSource);
2516     }
2517     if (countryCodeSource != CountryCodeSource.FROM_DEFAULT_COUNTRY) {
2518       if (fullNumber.length() <= MIN_LENGTH_FOR_NSN) {
2519         throw new NumberParseException(NumberParseException.ErrorType.TOO_SHORT_AFTER_IDD,
2520                                        "Phone number had an IDD, but after this was not "
2521                                        + "long enough to be a viable phone number.");
2522       }
2523       int potentialCountryCode = extractCountryCode(fullNumber, nationalNumber);
2524       if (potentialCountryCode != 0) {
2525         phoneNumber.setCountryCode(potentialCountryCode);
2526         return potentialCountryCode;
2527       }
2528 
2529       // If this fails, they must be using a strange country calling code that we don't recognize,
2530       // or that doesn't exist.
2531       throw new NumberParseException(NumberParseException.ErrorType.INVALID_COUNTRY_CODE,
2532                                      "Country calling code supplied was not recognised.");
2533     } else if (defaultRegionMetadata != null) {
2534       // Check to see if the number starts with the country calling code for the default region. If
2535       // so, we remove the country calling code, and do some checks on the validity of the number
2536       // before and after.
2537       int defaultCountryCode = defaultRegionMetadata.getCountryCode();
2538       String defaultCountryCodeString = String.valueOf(defaultCountryCode);
2539       String normalizedNumber = fullNumber.toString();
2540       if (normalizedNumber.startsWith(defaultCountryCodeString)) {
2541         StringBuilder potentialNationalNumber =
2542             new StringBuilder(normalizedNumber.substring(defaultCountryCodeString.length()));
2543         PhoneNumberDesc generalDesc = defaultRegionMetadata.getGeneralDesc();
2544         Pattern validNumberPattern =
2545             regexCache.getPatternForRegex(generalDesc.getNationalNumberPattern());
2546         maybeStripNationalPrefixAndCarrierCode(
2547             potentialNationalNumber, defaultRegionMetadata, null /* Don't need the carrier code */);
2548         Pattern possibleNumberPattern =
2549             regexCache.getPatternForRegex(generalDesc.getPossibleNumberPattern());
2550         // If the number was not valid before but is valid now, or if it was too long before, we
2551         // consider the number with the country calling code stripped to be a better result and
2552         // keep that instead.
2553         if ((!validNumberPattern.matcher(fullNumber).matches() &&
2554              validNumberPattern.matcher(potentialNationalNumber).matches()) ||
2555              testNumberLengthAgainstPattern(possibleNumberPattern, fullNumber.toString())
2556                   == ValidationResult.TOO_LONG) {
2557           nationalNumber.append(potentialNationalNumber);
2558           if (keepRawInput) {
2559             phoneNumber.setCountryCodeSource(CountryCodeSource.FROM_NUMBER_WITHOUT_PLUS_SIGN);
2560           }
2561           phoneNumber.setCountryCode(defaultCountryCode);
2562           return defaultCountryCode;
2563         }
2564       }
2565     }
2566     // No country calling code present.
2567     phoneNumber.setCountryCode(0);
2568     return 0;
2569   }
2570 
2571   /**
2572    * Strips the IDD from the start of the number if present. Helper function used by
2573    * maybeStripInternationalPrefixAndNormalize.
2574    */
2575   private boolean parsePrefixAsIdd(Pattern iddPattern, StringBuilder number) {
2576     Matcher m = iddPattern.matcher(number);
2577     if (m.lookingAt()) {
2578       int matchEnd = m.end();
2579       // Only strip this if the first digit after the match is not a 0, since country calling codes
2580       // cannot begin with 0.
2581       Matcher digitMatcher = CAPTURING_DIGIT_PATTERN.matcher(number.substring(matchEnd));
2582       if (digitMatcher.find()) {
2583         String normalizedGroup = normalizeDigitsOnly(digitMatcher.group(1));
2584         if (normalizedGroup.equals("0")) {
2585           return false;
2586         }
2587       }
2588       number.delete(0, matchEnd);
2589       return true;
2590     }
2591     return false;
2592   }
2593 
2594   /**
2595    * Strips any international prefix (such as +, 00, 011) present in the number provided, normalizes
2596    * the resulting number, and indicates if an international prefix was present.
2597    *
2598    * @param number  the non-normalized telephone number that we wish to strip any international
2599    *     dialing prefix from.
2600    * @param possibleIddPrefix  the international direct dialing prefix from the region we
2601    *     think this number may be dialed in
2602    * @return  the corresponding CountryCodeSource if an international dialing prefix could be
2603    *     removed from the number, otherwise CountryCodeSource.FROM_DEFAULT_COUNTRY if the number did
2604    *     not seem to be in international format.
2605    */
2606   // @VisibleForTesting
2607   CountryCodeSource maybeStripInternationalPrefixAndNormalize(
2608       StringBuilder number,
2609       String possibleIddPrefix) {
2610     if (number.length() == 0) {
2611       return CountryCodeSource.FROM_DEFAULT_COUNTRY;
2612     }
2613     // Check to see if the number begins with one or more plus signs.
2614     Matcher m = PLUS_CHARS_PATTERN.matcher(number);
2615     if (m.lookingAt()) {
2616       number.delete(0, m.end());
2617       // Can now normalize the rest of the number since we've consumed the "+" sign at the start.
2618       normalize(number);
2619       return CountryCodeSource.FROM_NUMBER_WITH_PLUS_SIGN;
2620     }
2621     // Attempt to parse the first digits as an international prefix.
2622     Pattern iddPattern = regexCache.getPatternForRegex(possibleIddPrefix);
2623     normalize(number);
2624     return parsePrefixAsIdd(iddPattern, number)
2625            ? CountryCodeSource.FROM_NUMBER_WITH_IDD
2626            : CountryCodeSource.FROM_DEFAULT_COUNTRY;
2627   }
2628 
2629   /**
2630    * Strips any national prefix (such as 0, 1) present in the number provided.
2631    *
2632    * @param number  the normalized telephone number that we wish to strip any national
2633    *     dialing prefix from
2634    * @param metadata  the metadata for the region that we think this number is from
2635    * @param carrierCode  a place to insert the carrier code if one is extracted
2636    * @return true if a national prefix or carrier code (or both) could be extracted.
2637    */
2638   // @VisibleForTesting
2639   boolean maybeStripNationalPrefixAndCarrierCode(
2640       StringBuilder number, PhoneMetadata metadata, StringBuilder carrierCode) {
2641     int numberLength = number.length();
2642     String possibleNationalPrefix = metadata.getNationalPrefixForParsing();
2643     if (numberLength == 0 || possibleNationalPrefix.length() == 0) {
2644       // Early return for numbers of zero length.
2645       return false;
2646     }
2647     // Attempt to parse the first digits as a national prefix.
2648     Matcher prefixMatcher = regexCache.getPatternForRegex(possibleNationalPrefix).matcher(number);
2649     if (prefixMatcher.lookingAt()) {
2650       Pattern nationalNumberRule =
2651           regexCache.getPatternForRegex(metadata.getGeneralDesc().getNationalNumberPattern());
2652       // Check if the original number is viable.
2653       boolean isViableOriginalNumber = nationalNumberRule.matcher(number).matches();
2654       // prefixMatcher.group(numOfGroups) == null implies nothing was captured by the capturing
2655       // groups in possibleNationalPrefix; therefore, no transformation is necessary, and we just
2656       // remove the national prefix.
2657       int numOfGroups = prefixMatcher.groupCount();
2658       String transformRule = metadata.getNationalPrefixTransformRule();
2659       if (transformRule == null || transformRule.length() == 0 ||
2660           prefixMatcher.group(numOfGroups) == null) {
2661         // If the original number was viable, and the resultant number is not, we return.
2662         if (isViableOriginalNumber &&
2663             !nationalNumberRule.matcher(number.substring(prefixMatcher.end())).matches()) {
2664           return false;
2665         }
2666         if (carrierCode != null && numOfGroups > 0 && prefixMatcher.group(numOfGroups) != null) {
2667           carrierCode.append(prefixMatcher.group(1));
2668         }
2669         number.delete(0, prefixMatcher.end());
2670         return true;
2671       } else {
2672         // Check that the resultant number is still viable. If not, return. Check this by copying
2673         // the string buffer and making the transformation on the copy first.
2674         StringBuilder transformedNumber = new StringBuilder(number);
2675         transformedNumber.replace(0, numberLength, prefixMatcher.replaceFirst(transformRule));
2676         if (isViableOriginalNumber &&
2677             !nationalNumberRule.matcher(transformedNumber.toString()).matches()) {
2678           return false;
2679         }
2680         if (carrierCode != null && numOfGroups > 1) {
2681           carrierCode.append(prefixMatcher.group(1));
2682         }
2683         number.replace(0, number.length(), transformedNumber.toString());
2684         return true;
2685       }
2686     }
2687     return false;
2688   }
2689 
2690   /**
2691    * Strips any extension (as in, the part of the number dialled after the call is connected,
2692    * usually indicated with extn, ext, x or similar) from the end of the number, and returns it.
2693    *
2694    * @param number  the non-normalized telephone number that we wish to strip the extension from
2695    * @return        the phone extension
2696    */
2697   // @VisibleForTesting
2698   String maybeStripExtension(StringBuilder number) {
2699     Matcher m = EXTN_PATTERN.matcher(number);
2700     // If we find a potential extension, and the number preceding this is a viable number, we assume
2701     // it is an extension.
2702     if (m.find() && isViablePhoneNumber(number.substring(0, m.start()))) {
2703       // The numbers are captured into groups in the regular expression.
2704       for (int i = 1, length = m.groupCount(); i <= length; i++) {
2705         if (m.group(i) != null) {
2706           // We go through the capturing groups until we find one that captured some digits. If none
2707           // did, then we will return the empty string.
2708           String extension = m.group(i);
2709           number.delete(m.start(), number.length());
2710           return extension;
2711         }
2712       }
2713     }
2714     return "";
2715   }
2716 
2717   /**
2718    * Checks to see that the region code used is valid, or if it is not valid, that the number to
2719    * parse starts with a + symbol so that we can attempt to infer the region from the number.
2720    * Returns false if it cannot use the region provided and the region cannot be inferred.
2721    */
2722   private boolean checkRegionForParsing(String numberToParse, String defaultRegion) {
2723     if (!isValidRegionCode(defaultRegion)) {
2724       // If the number is null or empty, we can't infer the region.
2725       if ((numberToParse == null) || (numberToParse.length() == 0) ||
2726           !PLUS_CHARS_PATTERN.matcher(numberToParse).lookingAt()) {
2727         return false;
2728       }
2729     }
2730     return true;
2731   }
2732 
2733   /**
2734    * Parses a string and returns it in proto buffer format. This method will throw a
2735    * {@link com.google.i18n.phonenumbers.NumberParseException} if the number is not considered to be
2736    * a possible number. Note that validation of whether the number is actually a valid number for a
2737    * particular region is not performed. This can be done separately with {@link #isValidNumber}.
2738    *
2739    * @param numberToParse     number that we are attempting to parse. This can contain formatting
2740    *                          such as +, ( and -, as well as a phone number extension. It can also
2741    *                          be provided in RFC3966 format.
2742    * @param defaultRegion     region that we are expecting the number to be from. This is only used
2743    *                          if the number being parsed is not written in international format.
2744    *                          The country_code for the number in this case would be stored as that
2745    *                          of the default region supplied. If the number is guaranteed to
2746    *                          start with a '+' followed by the country calling code, then
2747    *                          "ZZ" or null can be supplied.
2748    * @return                  a phone number proto buffer filled with the parsed number
2749    * @throws NumberParseException  if the string is not considered to be a viable phone number or if
2750    *                               no default region was supplied and the number is not in
2751    *                               international format (does not start with +)
2752    */
2753   public PhoneNumber parse(String numberToParse, String defaultRegion)
2754       throws NumberParseException {
2755     PhoneNumber phoneNumber = new PhoneNumber();
2756     parse(numberToParse, defaultRegion, phoneNumber);
2757     return phoneNumber;
2758   }
2759 
2760   /**
2761    * Same as {@link #parse(String, String)}, but accepts mutable PhoneNumber as a parameter to
2762    * decrease object creation when invoked many times.
2763    */
2764   public void parse(String numberToParse, String defaultRegion, PhoneNumber phoneNumber)
2765       throws NumberParseException {
2766     parseHelper(numberToParse, defaultRegion, false, true, phoneNumber);
2767   }
2768 
2769   /**
2770    * Parses a string and returns it in proto buffer format. This method differs from {@link #parse}
2771    * in that it always populates the raw_input field of the protocol buffer with numberToParse as
2772    * well as the country_code_source field.
2773    *
2774    * @param numberToParse     number that we are attempting to parse. This can contain formatting
2775    *                          such as +, ( and -, as well as a phone number extension.
2776    * @param defaultRegion     region that we are expecting the number to be from. This is only used
2777    *                          if the number being parsed is not written in international format.
2778    *                          The country calling code for the number in this case would be stored
2779    *                          as that of the default region supplied.
2780    * @return                  a phone number proto buffer filled with the parsed number
2781    * @throws NumberParseException  if the string is not considered to be a viable phone number or if
2782    *                               no default region was supplied
2783    */
2784   public PhoneNumber parseAndKeepRawInput(String numberToParse, String defaultRegion)
2785       throws NumberParseException {
2786     PhoneNumber phoneNumber = new PhoneNumber();
2787     parseAndKeepRawInput(numberToParse, defaultRegion, phoneNumber);
2788     return phoneNumber;
2789   }
2790 
2791   /**
2792    * Same as{@link #parseAndKeepRawInput(String, String)}, but accepts a mutable PhoneNumber as
2793    * a parameter to decrease object creation when invoked many times.
2794    */
2795   public void parseAndKeepRawInput(String numberToParse, String defaultRegion,
2796                                    PhoneNumber phoneNumber)
2797       throws NumberParseException {
2798     parseHelper(numberToParse, defaultRegion, true, true, phoneNumber);
2799   }
2800 
2801   /**
2802    * Returns an iterable over all {@link PhoneNumberMatch PhoneNumberMatches} in {@code text}. This
2803    * is a shortcut for {@link #findNumbers(CharSequence, String, Leniency, long)
2804    * getMatcher(text, defaultRegion, Leniency.VALID, Long.MAX_VALUE)}.
2805    *
2806    * @param text              the text to search for phone numbers, null for no text
2807    * @param defaultRegion     region that we are expecting the number to be from. This is only used
2808    *                          if the number being parsed is not written in international format. The
2809    *                          country_code for the number in this case would be stored as that of
2810    *                          the default region supplied. May be null if only international
2811    *                          numbers are expected.
2812    */
2813   public Iterable<PhoneNumberMatch> findNumbers(CharSequence text, String defaultRegion) {
2814     return findNumbers(text, defaultRegion, Leniency.VALID, Long.MAX_VALUE);
2815   }
2816 
2817   /**
2818    * Returns an iterable over all {@link PhoneNumberMatch PhoneNumberMatches} in {@code text}.
2819    *
2820    * @param text              the text to search for phone numbers, null for no text
2821    * @param defaultRegion     region that we are expecting the number to be from. This is only used
2822    *                          if the number being parsed is not written in international format. The
2823    *                          country_code for the number in this case would be stored as that of
2824    *                          the default region supplied. May be null if only international
2825    *                          numbers are expected.
2826    * @param leniency          the leniency to use when evaluating candidate phone numbers
2827    * @param maxTries          the maximum number of invalid numbers to try before giving up on the
2828    *                          text. This is to cover degenerate cases where the text has a lot of
2829    *                          false positives in it. Must be {@code >= 0}.
2830    */
2831   public Iterable<PhoneNumberMatch> findNumbers(
2832       final CharSequence text, final String defaultRegion, final Leniency leniency,
2833       final long maxTries) {
2834 
2835     return new Iterable<PhoneNumberMatch>() {
2836       @Override
2837       public Iterator<PhoneNumberMatch> iterator() {
2838         return new PhoneNumberMatcher(
2839             PhoneNumberUtil.this, text, defaultRegion, leniency, maxTries);
2840       }
2841     };
2842   }
2843 
2844   /**
2845    * A helper function to set the values related to leading zeros in a PhoneNumber.
2846    */
2847   static void setItalianLeadingZerosForPhoneNumber(String nationalNumber, PhoneNumber phoneNumber) {
2848     if (nationalNumber.length() > 1 && nationalNumber.charAt(0) == '0') {
2849       phoneNumber.setItalianLeadingZero(true);
2850       int numberOfLeadingZeros = 1;
2851       // Note that if the national number is all "0"s, the last "0" is not counted as a leading
2852       // zero.
2853       while (numberOfLeadingZeros < nationalNumber.length() - 1 &&
2854              nationalNumber.charAt(numberOfLeadingZeros) == '0') {
2855         numberOfLeadingZeros++;
2856       }
2857       if (numberOfLeadingZeros != 1) {
2858         phoneNumber.setNumberOfLeadingZeros(numberOfLeadingZeros);
2859       }
2860     }
2861   }
2862 
2863   /**
2864    * Parses a string and fills up the phoneNumber. This method is the same as the public
2865    * parse() method, with the exception that it allows the default region to be null, for use by
2866    * isNumberMatch(). checkRegion should be set to false if it is permitted for the default region
2867    * to be null or unknown ("ZZ").
2868    */
2869   private void parseHelper(String numberToParse, String defaultRegion, boolean keepRawInput,
2870                            boolean checkRegion, PhoneNumber phoneNumber)
2871       throws NumberParseException {
2872     if (numberToParse == null) {
2873       throw new NumberParseException(NumberParseException.ErrorType.NOT_A_NUMBER,
2874                                      "The phone number supplied was null.");
2875     } else if (numberToParse.length() > MAX_INPUT_STRING_LENGTH) {
2876       throw new NumberParseException(NumberParseException.ErrorType.TOO_LONG,
2877                                      "The string supplied was too long to parse.");
2878     }
2879 
2880     StringBuilder nationalNumber = new StringBuilder();
2881     buildNationalNumberForParsing(numberToParse, nationalNumber);
2882 
2883     if (!isViablePhoneNumber(nationalNumber.toString())) {
2884       throw new NumberParseException(NumberParseException.ErrorType.NOT_A_NUMBER,
2885                                      "The string supplied did not seem to be a phone number.");
2886     }
2887 
2888     // Check the region supplied is valid, or that the extracted number starts with some sort of +
2889     // sign so the number's region can be determined.
2890     if (checkRegion && !checkRegionForParsing(nationalNumber.toString(), defaultRegion)) {
2891       throw new NumberParseException(NumberParseException.ErrorType.INVALID_COUNTRY_CODE,
2892                                      "Missing or invalid default region.");
2893     }
2894 
2895     if (keepRawInput) {
2896       phoneNumber.setRawInput(numberToParse);
2897     }
2898     // Attempt to parse extension first, since it doesn't require region-specific data and we want
2899     // to have the non-normalised number here.
2900     String extension = maybeStripExtension(nationalNumber);
2901     if (extension.length() > 0) {
2902       phoneNumber.setExtension(extension);
2903     }
2904 
2905     PhoneMetadata regionMetadata = getMetadataForRegion(defaultRegion);
2906     // Check to see if the number is given in international format so we know whether this number is
2907     // from the default region or not.
2908     StringBuilder normalizedNationalNumber = new StringBuilder();
2909     int countryCode = 0;
2910     try {
2911       // TODO: This method should really just take in the string buffer that has already
2912       // been created, and just remove the prefix, rather than taking in a string and then
2913       // outputting a string buffer.
2914       countryCode = maybeExtractCountryCode(nationalNumber.toString(), regionMetadata,
2915                                             normalizedNationalNumber, keepRawInput, phoneNumber);
2916     } catch (NumberParseException e) {
2917       Matcher matcher = PLUS_CHARS_PATTERN.matcher(nationalNumber.toString());
2918       if (e.getErrorType() == NumberParseException.ErrorType.INVALID_COUNTRY_CODE &&
2919           matcher.lookingAt()) {
2920         // Strip the plus-char, and try again.
2921         countryCode = maybeExtractCountryCode(nationalNumber.substring(matcher.end()),
2922                                               regionMetadata, normalizedNationalNumber,
2923                                               keepRawInput, phoneNumber);
2924         if (countryCode == 0) {
2925           throw new NumberParseException(NumberParseException.ErrorType.INVALID_COUNTRY_CODE,
2926                                          "Could not interpret numbers after plus-sign.");
2927         }
2928       } else {
2929         throw new NumberParseException(e.getErrorType(), e.getMessage());
2930       }
2931     }
2932     if (countryCode != 0) {
2933       String phoneNumberRegion = getRegionCodeForCountryCode(countryCode);
2934       if (!phoneNumberRegion.equals(defaultRegion)) {
2935         // Metadata cannot be null because the country calling code is valid.
2936         regionMetadata = getMetadataForRegionOrCallingCode(countryCode, phoneNumberRegion);
2937       }
2938     } else {
2939       // If no extracted country calling code, use the region supplied instead. The national number
2940       // is just the normalized version of the number we were given to parse.
2941       normalize(nationalNumber);
2942       normalizedNationalNumber.append(nationalNumber);
2943       if (defaultRegion != null) {
2944         countryCode = regionMetadata.getCountryCode();
2945         phoneNumber.setCountryCode(countryCode);
2946       } else if (keepRawInput) {
2947         phoneNumber.clearCountryCodeSource();
2948       }
2949     }
2950     if (normalizedNationalNumber.length() < MIN_LENGTH_FOR_NSN) {
2951       throw new NumberParseException(NumberParseException.ErrorType.TOO_SHORT_NSN,
2952                                      "The string supplied is too short to be a phone number.");
2953     }
2954     if (regionMetadata != null) {
2955       StringBuilder carrierCode = new StringBuilder();
2956       StringBuilder potentialNationalNumber = new StringBuilder(normalizedNationalNumber);
2957       maybeStripNationalPrefixAndCarrierCode(potentialNationalNumber, regionMetadata, carrierCode);
2958       // We require that the NSN remaining after stripping the national prefix and carrier code be
2959       // of a possible length for the region. Otherwise, we don't do the stripping, since the
2960       // original number could be a valid short number.
2961       if (!isShorterThanPossibleNormalNumber(regionMetadata, potentialNationalNumber.toString())) {
2962         normalizedNationalNumber = potentialNationalNumber;
2963         if (keepRawInput) {
2964           phoneNumber.setPreferredDomesticCarrierCode(carrierCode.toString());
2965         }
2966       }
2967     }
2968     int lengthOfNationalNumber = normalizedNationalNumber.length();
2969     if (lengthOfNationalNumber < MIN_LENGTH_FOR_NSN) {
2970       throw new NumberParseException(NumberParseException.ErrorType.TOO_SHORT_NSN,
2971                                      "The string supplied is too short to be a phone number.");
2972     }
2973     if (lengthOfNationalNumber > MAX_LENGTH_FOR_NSN) {
2974       throw new NumberParseException(NumberParseException.ErrorType.TOO_LONG,
2975                                      "The string supplied is too long to be a phone number.");
2976     }
2977     setItalianLeadingZerosForPhoneNumber(normalizedNationalNumber.toString(), phoneNumber);
2978     phoneNumber.setNationalNumber(Long.parseLong(normalizedNationalNumber.toString()));
2979   }
2980 
2981   /**
2982    * Converts numberToParse to a form that we can parse and write it to nationalNumber if it is
2983    * written in RFC3966; otherwise extract a possible number out of it and write to nationalNumber.
2984    */
2985   private void buildNationalNumberForParsing(String numberToParse, StringBuilder nationalNumber) {
2986     int indexOfPhoneContext = numberToParse.indexOf(RFC3966_PHONE_CONTEXT);
2987     if (indexOfPhoneContext > 0) {
2988       int phoneContextStart = indexOfPhoneContext + RFC3966_PHONE_CONTEXT.length();
2989       // If the phone context contains a phone number prefix, we need to capture it, whereas domains
2990       // will be ignored.
2991       if (numberToParse.charAt(phoneContextStart) == PLUS_SIGN) {
2992         // Additional parameters might follow the phone context. If so, we will remove them here
2993         // because the parameters after phone context are not important for parsing the
2994         // phone number.
2995         int phoneContextEnd = numberToParse.indexOf(';', phoneContextStart);
2996         if (phoneContextEnd > 0) {
2997           nationalNumber.append(numberToParse.substring(phoneContextStart, phoneContextEnd));
2998         } else {
2999           nationalNumber.append(numberToParse.substring(phoneContextStart));
3000         }
3001       }
3002 
3003       // Now append everything between the "tel:" prefix and the phone-context. This should include
3004       // the national number, an optional extension or isdn-subaddress component. Note we also
3005       // handle the case when "tel:" is missing, as we have seen in some of the phone number inputs.
3006       // In that case, we append everything from the beginning.
3007       int indexOfRfc3966Prefix = numberToParse.indexOf(RFC3966_PREFIX);
3008       int indexOfNationalNumber = (indexOfRfc3966Prefix >= 0) ?
3009           indexOfRfc3966Prefix + RFC3966_PREFIX.length() : 0;
3010       nationalNumber.append(numberToParse.substring(indexOfNationalNumber, indexOfPhoneContext));
3011     } else {
3012       // Extract a possible number from the string passed in (this strips leading characters that
3013       // could not be the start of a phone number.)
3014       nationalNumber.append(extractPossibleNumber(numberToParse));
3015     }
3016 
3017     // Delete the isdn-subaddress and everything after it if it is present. Note extension won't
3018     // appear at the same time with isdn-subaddress according to paragraph 5.3 of the RFC3966 spec,
3019     int indexOfIsdn = nationalNumber.indexOf(RFC3966_ISDN_SUBADDRESS);
3020     if (indexOfIsdn > 0) {
3021       nationalNumber.delete(indexOfIsdn, nationalNumber.length());
3022     }
3023     // If both phone context and isdn-subaddress are absent but other parameters are present, the
3024     // parameters are left in nationalNumber. This is because we are concerned about deleting
3025     // content from a potential number string when there is no strong evidence that the number is
3026     // actually written in RFC3966.
3027   }
3028 
3029   /**
3030    * Takes two phone numbers and compares them for equality.
3031    *
3032    * <p>Returns EXACT_MATCH if the country_code, NSN, presence of a leading zero for Italian numbers
3033    * and any extension present are the same.
3034    * Returns NSN_MATCH if either or both has no region specified, and the NSNs and extensions are
3035    * the same.
3036    * Returns SHORT_NSN_MATCH if either or both has no region specified, or the region specified is
3037    * the same, and one NSN could be a shorter version of the other number. This includes the case
3038    * where one has an extension specified, and the other does not.
3039    * Returns NO_MATCH otherwise.
3040    * For example, the numbers +1 345 657 1234 and 657 1234 are a SHORT_NSN_MATCH.
3041    * The numbers +1 345 657 1234 and 345 657 are a NO_MATCH.
3042    *
3043    * @param firstNumberIn  first number to compare
3044    * @param secondNumberIn  second number to compare
3045    *
3046    * @return  NO_MATCH, SHORT_NSN_MATCH, NSN_MATCH or EXACT_MATCH depending on the level of equality
3047    *     of the two numbers, described in the method definition.
3048    */
3049   public MatchType isNumberMatch(PhoneNumber firstNumberIn, PhoneNumber secondNumberIn) {
3050     // Make copies of the phone number so that the numbers passed in are not edited.
3051     PhoneNumber firstNumber = new PhoneNumber();
3052     firstNumber.mergeFrom(firstNumberIn);
3053     PhoneNumber secondNumber = new PhoneNumber();
3054     secondNumber.mergeFrom(secondNumberIn);
3055     // First clear raw_input, country_code_source and preferred_domestic_carrier_code fields and any
3056     // empty-string extensions so that we can use the proto-buffer equality method.
3057     firstNumber.clearRawInput();
3058     firstNumber.clearCountryCodeSource();
3059     firstNumber.clearPreferredDomesticCarrierCode();
3060     secondNumber.clearRawInput();
3061     secondNumber.clearCountryCodeSource();
3062     secondNumber.clearPreferredDomesticCarrierCode();
3063     if (firstNumber.hasExtension() &&
3064         firstNumber.getExtension().length() == 0) {
3065         firstNumber.clearExtension();
3066     }
3067     if (secondNumber.hasExtension() &&
3068         secondNumber.getExtension().length() == 0) {
3069         secondNumber.clearExtension();
3070     }
3071     // Early exit if both had extensions and these are different.
3072     if (firstNumber.hasExtension() && secondNumber.hasExtension() &&
3073         !firstNumber.getExtension().equals(secondNumber.getExtension())) {
3074       return MatchType.NO_MATCH;
3075     }
3076     int firstNumberCountryCode = firstNumber.getCountryCode();
3077     int secondNumberCountryCode = secondNumber.getCountryCode();
3078     // Both had country_code specified.
3079     if (firstNumberCountryCode != 0 && secondNumberCountryCode != 0) {
3080       if (firstNumber.exactlySameAs(secondNumber)) {
3081         return MatchType.EXACT_MATCH;
3082       } else if (firstNumberCountryCode == secondNumberCountryCode &&
3083                  isNationalNumberSuffixOfTheOther(firstNumber, secondNumber)) {
3084         // A SHORT_NSN_MATCH occurs if there is a difference because of the presence or absence of
3085         // an 'Italian leading zero', the presence or absence of an extension, or one NSN being a
3086         // shorter variant of the other.
3087         return MatchType.SHORT_NSN_MATCH;
3088       }
3089       // This is not a match.
3090       return MatchType.NO_MATCH;
3091     }
3092     // Checks cases where one or both country_code fields were not specified. To make equality
3093     // checks easier, we first set the country_code fields to be equal.
3094     firstNumber.setCountryCode(secondNumberCountryCode);
3095     // If all else was the same, then this is an NSN_MATCH.
3096     if (firstNumber.exactlySameAs(secondNumber)) {
3097       return MatchType.NSN_MATCH;
3098     }
3099     if (isNationalNumberSuffixOfTheOther(firstNumber, secondNumber)) {
3100       return MatchType.SHORT_NSN_MATCH;
3101     }
3102     return MatchType.NO_MATCH;
3103   }
3104 
3105   // Returns true when one national number is the suffix of the other or both are the same.
3106   private boolean isNationalNumberSuffixOfTheOther(PhoneNumber firstNumber,
3107                                                    PhoneNumber secondNumber) {
3108     String firstNumberNationalNumber = String.valueOf(firstNumber.getNationalNumber());
3109     String secondNumberNationalNumber = String.valueOf(secondNumber.getNationalNumber());
3110     // Note that endsWith returns true if the numbers are equal.
3111     return firstNumberNationalNumber.endsWith(secondNumberNationalNumber) ||
3112            secondNumberNationalNumber.endsWith(firstNumberNationalNumber);
3113   }
3114 
3115   /**
3116    * Takes two phone numbers as strings and compares them for equality. This is a convenience
3117    * wrapper for {@link #isNumberMatch(PhoneNumber, PhoneNumber)}. No default region is known.
3118    *
3119    * @param firstNumber  first number to compare. Can contain formatting, and can have country
3120    *     calling code specified with + at the start.
3121    * @param secondNumber  second number to compare. Can contain formatting, and can have country
3122    *     calling code specified with + at the start.
3123    * @return  NOT_A_NUMBER, NO_MATCH, SHORT_NSN_MATCH, NSN_MATCH, EXACT_MATCH. See
3124    *     {@link #isNumberMatch(PhoneNumber, PhoneNumber)} for more details.
3125    */
3126   public MatchType isNumberMatch(String firstNumber, String secondNumber) {
3127     try {
3128       PhoneNumber firstNumberAsProto = parse(firstNumber, UNKNOWN_REGION);
3129       return isNumberMatch(firstNumberAsProto, secondNumber);
3130     } catch (NumberParseException e) {
3131       if (e.getErrorType() == NumberParseException.ErrorType.INVALID_COUNTRY_CODE) {
3132         try {
3133           PhoneNumber secondNumberAsProto = parse(secondNumber, UNKNOWN_REGION);
3134           return isNumberMatch(secondNumberAsProto, firstNumber);
3135         } catch (NumberParseException e2) {
3136           if (e2.getErrorType() == NumberParseException.ErrorType.INVALID_COUNTRY_CODE) {
3137             try {
3138               PhoneNumber firstNumberProto = new PhoneNumber();
3139               PhoneNumber secondNumberProto = new PhoneNumber();
3140               parseHelper(firstNumber, null, false, false, firstNumberProto);
3141               parseHelper(secondNumber, null, false, false, secondNumberProto);
3142               return isNumberMatch(firstNumberProto, secondNumberProto);
3143             } catch (NumberParseException e3) {
3144               // Fall through and return MatchType.NOT_A_NUMBER.
3145             }
3146           }
3147         }
3148       }
3149     }
3150     // One or more of the phone numbers we are trying to match is not a viable phone number.
3151     return MatchType.NOT_A_NUMBER;
3152   }
3153 
3154   /**
3155    * Takes two phone numbers and compares them for equality. This is a convenience wrapper for
3156    * {@link #isNumberMatch(PhoneNumber, PhoneNumber)}. No default region is known.
3157    *
3158    * @param firstNumber  first number to compare in proto buffer format.
3159    * @param secondNumber  second number to compare. Can contain formatting, and can have country
3160    *     calling code specified with + at the start.
3161    * @return  NOT_A_NUMBER, NO_MATCH, SHORT_NSN_MATCH, NSN_MATCH, EXACT_MATCH. See
3162    *     {@link #isNumberMatch(PhoneNumber, PhoneNumber)} for more details.
3163    */
3164   public MatchType isNumberMatch(PhoneNumber firstNumber, String secondNumber) {
3165     // First see if the second number has an implicit country calling code, by attempting to parse
3166     // it.
3167     try {
3168       PhoneNumber secondNumberAsProto = parse(secondNumber, UNKNOWN_REGION);
3169       return isNumberMatch(firstNumber, secondNumberAsProto);
3170     } catch (NumberParseException e) {
3171       if (e.getErrorType() == NumberParseException.ErrorType.INVALID_COUNTRY_CODE) {
3172         // The second number has no country calling code. EXACT_MATCH is no longer possible.
3173         // We parse it as if the region was the same as that for the first number, and if
3174         // EXACT_MATCH is returned, we replace this with NSN_MATCH.
3175         String firstNumberRegion = getRegionCodeForCountryCode(firstNumber.getCountryCode());
3176         try {
3177           if (!firstNumberRegion.equals(UNKNOWN_REGION)) {
3178             PhoneNumber secondNumberWithFirstNumberRegion = parse(secondNumber, firstNumberRegion);
3179             MatchType match = isNumberMatch(firstNumber, secondNumberWithFirstNumberRegion);
3180             if (match == MatchType.EXACT_MATCH) {
3181               return MatchType.NSN_MATCH;
3182             }
3183             return match;
3184           } else {
3185             // If the first number didn't have a valid country calling code, then we parse the
3186             // second number without one as well.
3187             PhoneNumber secondNumberProto = new PhoneNumber();
3188             parseHelper(secondNumber, null, false, false, secondNumberProto);
3189             return isNumberMatch(firstNumber, secondNumberProto);
3190           }
3191         } catch (NumberParseException e2) {
3192           // Fall-through to return NOT_A_NUMBER.
3193         }
3194       }
3195     }
3196     // One or more of the phone numbers we are trying to match is not a viable phone number.
3197     return MatchType.NOT_A_NUMBER;
3198   }
3199 
3200   /**
3201    * Returns true if the number can be dialled from outside the region, or unknown. If the number
3202    * can only be dialled from within the region, returns false. Does not check the number is a valid
3203    * number. Note that, at the moment, this method does not handle short numbers.
3204    * TODO: Make this method public when we have enough metadata to make it worthwhile.
3205    *
3206    * @param number  the phone-number for which we want to know whether it is diallable from
3207    *     outside the region
3208    */
3209   // @VisibleForTesting
3210   boolean canBeInternationallyDialled(PhoneNumber number) {
3211     PhoneMetadata metadata = getMetadataForRegion(getRegionCodeForNumber(number));
3212     if (metadata == null) {
3213       // Note numbers belonging to non-geographical entities (e.g. +800 numbers) are always
3214       // internationally diallable, and will be caught here.
3215       return true;
3216     }
3217     String nationalSignificantNumber = getNationalSignificantNumber(number);
3218     return !isNumberMatchingDesc(nationalSignificantNumber, metadata.getNoInternationalDialling());
3219   }
3220 
3221   /**
3222    * Returns true if the supplied region supports mobile number portability. Returns false for
3223    * invalid, unknown or regions that don't support mobile number portability.
3224    *
3225    * @param regionCode  the region for which we want to know whether it supports mobile number
3226    *                    portability or not.
3227    */
3228   public boolean isMobileNumberPortableRegion(String regionCode) {
3229     PhoneMetadata metadata = getMetadataForRegion(regionCode);
3230     if (metadata == null) {
3231       logger.log(Level.WARNING, "Invalid or unknown region code provided: " + regionCode);
3232       return false;
3233     }
3234     return metadata.isMobileNumberPortableRegion();
3235   }
3236 }
3237