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1 /*
2  * Copyright (C) 2013 The Android Open Source Project
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.android.dialer.smartdial.util;
18 
19 import android.content.Context;
20 import android.content.SharedPreferences;
21 import android.preference.PreferenceManager;
22 import android.support.annotation.VisibleForTesting;
23 import android.telephony.TelephonyManager;
24 import android.text.TextUtils;
25 import com.android.dialer.smartdial.map.CompositeSmartDialMap;
26 import java.util.ArrayList;
27 import java.util.HashSet;
28 import java.util.Set;
29 
30 /**
31  * Smart Dial utility class to find prefixes of contacts. It contains both methods to find supported
32  * prefix combinations for contact names, and also methods to find supported prefix combinations for
33  * contacts' phone numbers. Each contact name is separated into several tokens, such as first name,
34  * middle name, family name etc. Each phone number is also separated into country code, NANP area
35  * code, and local number if such separation is possible.
36  */
37 public class SmartDialPrefix {
38 
39   /**
40    * The number of starting and ending tokens in a contact's name considered for initials. For
41    * example, if both constants are set to 2, and a contact's name is "Albert Ben Charles Daniel Ed
42    * Foster", the first two tokens "Albert" "Ben", and last two tokens "Ed" "Foster" can be replaced
43    * by their initials in contact name matching. Users can look up this contact by combinations of
44    * his initials such as "AF" "BF" "EF" "ABF" "BEF" "ABEF" etc, but can not use combinations such
45    * as "CF" "DF" "ACF" "ADF" etc.
46    */
47   private static final int LAST_TOKENS_FOR_INITIALS = 2;
48 
49   private static final int FIRST_TOKENS_FOR_INITIALS = 2;
50 
51   /** The country code of the user's sim card obtained by calling getSimCountryIso */
52   private static final String PREF_USER_SIM_COUNTRY_CODE =
53       "DialtactsActivity_user_sim_country_code";
54 
55   private static final String PREF_USER_SIM_COUNTRY_CODE_DEFAULT = null;
56 
57   private static String userSimCountryCode = PREF_USER_SIM_COUNTRY_CODE_DEFAULT;
58   /** Indicates whether user is in NANP regions. */
59   private static boolean userInNanpRegion = false;
60   /** Set of country names that use NANP code. */
61   private static Set<String> nanpCountries = null;
62   /** Set of supported country codes in front of the phone number. */
63   private static Set<String> countryCodes = null;
64 
65   private static boolean nanpInitialized = false;
66 
67   /** Initializes the Nanp settings, and finds out whether user is in a NANP region. */
initializeNanpSettings(Context context)68   public static void initializeNanpSettings(Context context) {
69     final TelephonyManager manager =
70         (TelephonyManager) context.getSystemService(Context.TELEPHONY_SERVICE);
71     if (manager != null) {
72       userSimCountryCode = manager.getSimCountryIso();
73     }
74 
75     final SharedPreferences prefs =
76         PreferenceManager.getDefaultSharedPreferences(context.getApplicationContext());
77 
78     if (userSimCountryCode != null) {
79       /** Updates shared preferences with the latest country obtained from getSimCountryIso. */
80       prefs.edit().putString(PREF_USER_SIM_COUNTRY_CODE, userSimCountryCode).apply();
81     } else {
82       /** Uses previously stored country code if loading fails. */
83       userSimCountryCode =
84           prefs.getString(PREF_USER_SIM_COUNTRY_CODE, PREF_USER_SIM_COUNTRY_CODE_DEFAULT);
85     }
86     /** Queries the NANP country list to find out whether user is in a NANP region. */
87     userInNanpRegion = isCountryNanp(userSimCountryCode);
88     nanpInitialized = true;
89   }
90 
91   /**
92    * Parses a contact's name into a list of separated tokens.
93    *
94    * @param contactName Contact's name stored in string.
95    * @return A list of name tokens, for example separated first names, last name, etc.
96    */
parseToIndexTokens(Context context, String contactName)97   public static ArrayList<String> parseToIndexTokens(Context context, String contactName) {
98     final int length = contactName.length();
99     final ArrayList<String> result = new ArrayList<>();
100     char c;
101     final StringBuilder currentIndexToken = new StringBuilder();
102     /**
103      * Iterates through the whole name string. If the current character is a valid character, append
104      * it to the current token. If the current character is not a valid character, for example space
105      * " ", mark the current token as complete and add it to the list of tokens.
106      */
107     for (int i = 0; i < length; i++) {
108       c = CompositeSmartDialMap.normalizeCharacter(context, contactName.charAt(i));
109       if (CompositeSmartDialMap.isValidDialpadCharacter(context, c)) {
110         /** Converts a character into the number on dialpad that represents the character. */
111         currentIndexToken.append(CompositeSmartDialMap.getDialpadIndex(context, c));
112       } else {
113         if (currentIndexToken.length() != 0) {
114           result.add(currentIndexToken.toString());
115         }
116         currentIndexToken.delete(0, currentIndexToken.length());
117       }
118     }
119 
120     /** Adds the last token in case it has not been added. */
121     if (currentIndexToken.length() != 0) {
122       result.add(currentIndexToken.toString());
123     }
124     return result;
125   }
126 
127   /**
128    * Generates a list of strings that any prefix of any string in the list can be used to look up
129    * the contact's name.
130    *
131    * @param index The contact's name in string.
132    * @return A List of strings, whose prefix can be used to look up the contact.
133    */
generateNamePrefixes(Context context, String index)134   public static ArrayList<String> generateNamePrefixes(Context context, String index) {
135     final ArrayList<String> result = new ArrayList<>();
136 
137     /** Parses the name into a list of tokens. */
138     final ArrayList<String> indexTokens = parseToIndexTokens(context, index);
139 
140     if (indexTokens.size() > 0) {
141       /**
142        * Adds the full token combinations to the list. For example, a contact with name "Albert Ben
143        * Ed Foster" can be looked up by any prefix of the following strings "Foster" "EdFoster"
144        * "BenEdFoster" and "AlbertBenEdFoster". This covers all cases of look up that contains only
145        * one token, and that spans multiple continuous tokens.
146        */
147       final StringBuilder fullNameToken = new StringBuilder();
148       for (int i = indexTokens.size() - 1; i >= 0; i--) {
149         fullNameToken.insert(0, indexTokens.get(i));
150         result.add(fullNameToken.toString());
151       }
152 
153       /**
154        * Adds initial combinations to the list, with the number of initials restricted by {@link
155        * #LAST_TOKENS_FOR_INITIALS} and {@link #FIRST_TOKENS_FOR_INITIALS}. For example, a contact
156        * with name "Albert Ben Ed Foster" can be looked up by any prefix of the following strings
157        * "EFoster" "BFoster" "BEFoster" "AFoster" "ABFoster" "AEFoster" and "ABEFoster". This covers
158        * all cases of initial lookup.
159        */
160       ArrayList<String> fullNames = new ArrayList<>();
161       fullNames.add(indexTokens.get(indexTokens.size() - 1));
162       final int recursiveNameStart = result.size();
163       int recursiveNameEnd = result.size();
164       String initial = "";
165       for (int i = indexTokens.size() - 2; i >= 0; i--) {
166         if ((i >= indexTokens.size() - LAST_TOKENS_FOR_INITIALS)
167             || (i < FIRST_TOKENS_FOR_INITIALS)) {
168           initial = indexTokens.get(i).substring(0, 1);
169 
170           /** Recursively adds initial combinations to the list. */
171           for (int j = 0; j < fullNames.size(); ++j) {
172             result.add(initial + fullNames.get(j));
173           }
174           for (int j = recursiveNameStart; j < recursiveNameEnd; ++j) {
175             result.add(initial + result.get(j));
176           }
177           recursiveNameEnd = result.size();
178           final String currentFullName = fullNames.get(fullNames.size() - 1);
179           fullNames.add(indexTokens.get(i) + currentFullName);
180         }
181       }
182     }
183 
184     return result;
185   }
186 
187   /**
188    * Computes a list of number strings based on tokens of a given phone number. Any prefix of any
189    * string in the list can be used to look up the phone number. The list include the full phone
190    * number, the national number if there is a country code in the phone number, and the local
191    * number if there is an area code in the phone number following the NANP format. For example, if
192    * a user has phone number +41 71 394 8392, the list will contain 41713948392 and 713948392. Any
193    * prefix to either of the strings can be used to look up the phone number. If a user has a phone
194    * number +1 555-302-3029 (NANP format), the list will contain 15553023029, 5553023029, and
195    * 3023029.
196    *
197    * @param number String of user's phone number.
198    * @return A list of strings where any prefix of any entry can be used to look up the number.
199    */
parseToNumberTokens(Context context, String number)200   public static ArrayList<String> parseToNumberTokens(Context context, String number) {
201     final ArrayList<String> result = new ArrayList<>();
202     if (!TextUtils.isEmpty(number)) {
203       /** Adds the full number to the list. */
204       result.add(SmartDialNameMatcher.normalizeNumber(context, number));
205 
206       final PhoneNumberTokens phoneNumberTokens = parsePhoneNumber(context, number);
207       if (phoneNumberTokens == null) {
208         return result;
209       }
210 
211       if (phoneNumberTokens.countryCodeOffset != 0) {
212         result.add(
213             SmartDialNameMatcher.normalizeNumber(
214                 context, number, phoneNumberTokens.countryCodeOffset));
215       }
216 
217       if (phoneNumberTokens.nanpCodeOffset != 0) {
218         result.add(
219             SmartDialNameMatcher.normalizeNumber(
220                 context, number, phoneNumberTokens.nanpCodeOffset));
221       }
222     }
223     return result;
224   }
225 
226   /**
227    * Parses a phone number to find out whether it has country code and NANP area code.
228    *
229    * @param number Raw phone number.
230    * @return a PhoneNumberToken instance with country code, NANP code information.
231    */
parsePhoneNumber(Context context, String number)232   public static PhoneNumberTokens parsePhoneNumber(Context context, String number) {
233     String countryCode = "";
234     int countryCodeOffset = 0;
235     int nanpNumberOffset = 0;
236 
237     if (!TextUtils.isEmpty(number)) {
238       String normalizedNumber = SmartDialNameMatcher.normalizeNumber(context, number);
239       if (number.charAt(0) == '+') {
240         /** If the number starts with '+', tries to find valid country code. */
241         for (int i = 1; i <= 1 + 3; i++) {
242           if (number.length() <= i) {
243             break;
244           }
245           countryCode = number.substring(1, i);
246           if (isValidCountryCode(countryCode)) {
247             countryCodeOffset = i;
248             break;
249           }
250         }
251       } else {
252         /**
253          * If the number does not start with '+', finds out whether it is in NANP format and has '1'
254          * preceding the number.
255          */
256         if ((normalizedNumber.length() == 11)
257             && (normalizedNumber.charAt(0) == '1')
258             && (userInNanpRegion)) {
259           countryCode = "1";
260           countryCodeOffset = number.indexOf(normalizedNumber.charAt(1));
261           if (countryCodeOffset == -1) {
262             countryCodeOffset = 0;
263           }
264         }
265       }
266 
267       /** If user is in NANP region, finds out whether a number is in NANP format. */
268       if (userInNanpRegion) {
269         String areaCode = "";
270         if (countryCode.equals("") && normalizedNumber.length() == 10) {
271           /**
272            * if the number has no country code but fits the NANP format, extracts the NANP area
273            * code, and finds out offset of the local number.
274            */
275           areaCode = normalizedNumber.substring(0, 3);
276         } else if (countryCode.equals("1") && normalizedNumber.length() == 11) {
277           /**
278            * If the number has country code '1', finds out area code and offset of the local number.
279            */
280           areaCode = normalizedNumber.substring(1, 4);
281         }
282         if (!areaCode.equals("")) {
283           final int areaCodeIndex = number.indexOf(areaCode);
284           if (areaCodeIndex != -1) {
285             nanpNumberOffset = number.indexOf(areaCode) + 3;
286           }
287         }
288       }
289     }
290     return new PhoneNumberTokens(countryCode, countryCodeOffset, nanpNumberOffset);
291   }
292 
293   /** Checkes whether a country code is valid. */
isValidCountryCode(String countryCode)294   private static boolean isValidCountryCode(String countryCode) {
295     if (countryCodes == null) {
296       countryCodes = initCountryCodes();
297     }
298     return countryCodes.contains(countryCode);
299   }
300 
initCountryCodes()301   private static Set<String> initCountryCodes() {
302     final HashSet<String> result = new HashSet<String>();
303     result.add("1");
304     result.add("7");
305     result.add("20");
306     result.add("27");
307     result.add("30");
308     result.add("31");
309     result.add("32");
310     result.add("33");
311     result.add("34");
312     result.add("36");
313     result.add("39");
314     result.add("40");
315     result.add("41");
316     result.add("43");
317     result.add("44");
318     result.add("45");
319     result.add("46");
320     result.add("47");
321     result.add("48");
322     result.add("49");
323     result.add("51");
324     result.add("52");
325     result.add("53");
326     result.add("54");
327     result.add("55");
328     result.add("56");
329     result.add("57");
330     result.add("58");
331     result.add("60");
332     result.add("61");
333     result.add("62");
334     result.add("63");
335     result.add("64");
336     result.add("65");
337     result.add("66");
338     result.add("81");
339     result.add("82");
340     result.add("84");
341     result.add("86");
342     result.add("90");
343     result.add("91");
344     result.add("92");
345     result.add("93");
346     result.add("94");
347     result.add("95");
348     result.add("98");
349     result.add("211");
350     result.add("212");
351     result.add("213");
352     result.add("216");
353     result.add("218");
354     result.add("220");
355     result.add("221");
356     result.add("222");
357     result.add("223");
358     result.add("224");
359     result.add("225");
360     result.add("226");
361     result.add("227");
362     result.add("228");
363     result.add("229");
364     result.add("230");
365     result.add("231");
366     result.add("232");
367     result.add("233");
368     result.add("234");
369     result.add("235");
370     result.add("236");
371     result.add("237");
372     result.add("238");
373     result.add("239");
374     result.add("240");
375     result.add("241");
376     result.add("242");
377     result.add("243");
378     result.add("244");
379     result.add("245");
380     result.add("246");
381     result.add("247");
382     result.add("248");
383     result.add("249");
384     result.add("250");
385     result.add("251");
386     result.add("252");
387     result.add("253");
388     result.add("254");
389     result.add("255");
390     result.add("256");
391     result.add("257");
392     result.add("258");
393     result.add("260");
394     result.add("261");
395     result.add("262");
396     result.add("263");
397     result.add("264");
398     result.add("265");
399     result.add("266");
400     result.add("267");
401     result.add("268");
402     result.add("269");
403     result.add("290");
404     result.add("291");
405     result.add("297");
406     result.add("298");
407     result.add("299");
408     result.add("350");
409     result.add("351");
410     result.add("352");
411     result.add("353");
412     result.add("354");
413     result.add("355");
414     result.add("356");
415     result.add("357");
416     result.add("358");
417     result.add("359");
418     result.add("370");
419     result.add("371");
420     result.add("372");
421     result.add("373");
422     result.add("374");
423     result.add("375");
424     result.add("376");
425     result.add("377");
426     result.add("378");
427     result.add("379");
428     result.add("380");
429     result.add("381");
430     result.add("382");
431     result.add("385");
432     result.add("386");
433     result.add("387");
434     result.add("389");
435     result.add("420");
436     result.add("421");
437     result.add("423");
438     result.add("500");
439     result.add("501");
440     result.add("502");
441     result.add("503");
442     result.add("504");
443     result.add("505");
444     result.add("506");
445     result.add("507");
446     result.add("508");
447     result.add("509");
448     result.add("590");
449     result.add("591");
450     result.add("592");
451     result.add("593");
452     result.add("594");
453     result.add("595");
454     result.add("596");
455     result.add("597");
456     result.add("598");
457     result.add("599");
458     result.add("670");
459     result.add("672");
460     result.add("673");
461     result.add("674");
462     result.add("675");
463     result.add("676");
464     result.add("677");
465     result.add("678");
466     result.add("679");
467     result.add("680");
468     result.add("681");
469     result.add("682");
470     result.add("683");
471     result.add("685");
472     result.add("686");
473     result.add("687");
474     result.add("688");
475     result.add("689");
476     result.add("690");
477     result.add("691");
478     result.add("692");
479     result.add("800");
480     result.add("808");
481     result.add("850");
482     result.add("852");
483     result.add("853");
484     result.add("855");
485     result.add("856");
486     result.add("870");
487     result.add("878");
488     result.add("880");
489     result.add("881");
490     result.add("882");
491     result.add("883");
492     result.add("886");
493     result.add("888");
494     result.add("960");
495     result.add("961");
496     result.add("962");
497     result.add("963");
498     result.add("964");
499     result.add("965");
500     result.add("966");
501     result.add("967");
502     result.add("968");
503     result.add("970");
504     result.add("971");
505     result.add("972");
506     result.add("973");
507     result.add("974");
508     result.add("975");
509     result.add("976");
510     result.add("977");
511     result.add("979");
512     result.add("992");
513     result.add("993");
514     result.add("994");
515     result.add("995");
516     result.add("996");
517     result.add("998");
518     return result;
519   }
520 
521   /**
522    * Indicates whether the given country uses NANP numbers
523    *
524    * @param country ISO 3166 country code (case doesn't matter)
525    * @return True if country uses NANP numbers (e.g. US, Canada), false otherwise
526    * @see <a href="https://en.wikipedia.org/wiki/North_American_Numbering_Plan">
527    *     https://en.wikipedia.org/wiki/North_American_Numbering_Plan</a>
528    */
529   @VisibleForTesting
isCountryNanp(String country)530   public static boolean isCountryNanp(String country) {
531     if (TextUtils.isEmpty(country)) {
532       return false;
533     }
534     if (nanpCountries == null) {
535       nanpCountries = initNanpCountries();
536     }
537     return nanpCountries.contains(country.toUpperCase());
538   }
539 
initNanpCountries()540   private static Set<String> initNanpCountries() {
541     final HashSet<String> result = new HashSet<String>();
542     result.add("US"); // United States
543     result.add("CA"); // Canada
544     result.add("AS"); // American Samoa
545     result.add("AI"); // Anguilla
546     result.add("AG"); // Antigua and Barbuda
547     result.add("BS"); // Bahamas
548     result.add("BB"); // Barbados
549     result.add("BM"); // Bermuda
550     result.add("VG"); // British Virgin Islands
551     result.add("KY"); // Cayman Islands
552     result.add("DM"); // Dominica
553     result.add("DO"); // Dominican Republic
554     result.add("GD"); // Grenada
555     result.add("GU"); // Guam
556     result.add("JM"); // Jamaica
557     result.add("PR"); // Puerto Rico
558     result.add("MS"); // Montserrat
559     result.add("MP"); // Northern Mariana Islands
560     result.add("KN"); // Saint Kitts and Nevis
561     result.add("LC"); // Saint Lucia
562     result.add("VC"); // Saint Vincent and the Grenadines
563     result.add("TT"); // Trinidad and Tobago
564     result.add("TC"); // Turks and Caicos Islands
565     result.add("VI"); // U.S. Virgin Islands
566     return result;
567   }
568 
569   /**
570    * Returns whether the user is in a region that uses Nanp format based on the sim location.
571    *
572    * @return Whether user is in Nanp region.
573    */
getUserInNanpRegion()574   public static boolean getUserInNanpRegion() {
575     return userInNanpRegion;
576   }
577 
578   /** Explicitly setting the user Nanp to the given boolean */
579   @VisibleForTesting
setUserInNanpRegion(boolean userInNanpRegion)580   public static void setUserInNanpRegion(boolean userInNanpRegion) {
581     SmartDialPrefix.userInNanpRegion = userInNanpRegion;
582   }
583 
584   /** Class to record phone number parsing information. */
585   public static class PhoneNumberTokens {
586 
587     /** Country code of the phone number. */
588     final String countryCode;
589 
590     /** Offset of national number after the country code. */
591     final int countryCodeOffset;
592 
593     /** Offset of local number after NANP area code. */
594     final int nanpCodeOffset;
595 
PhoneNumberTokens(String countryCode, int countryCodeOffset, int nanpCodeOffset)596     public PhoneNumberTokens(String countryCode, int countryCodeOffset, int nanpCodeOffset) {
597       this.countryCode = countryCode;
598       this.countryCodeOffset = countryCodeOffset;
599       this.nanpCodeOffset = nanpCodeOffset;
600     }
601   }
602 }
603