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|
/*
7 * Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.inputmethod.latin;
import android.content.Context;
import android.text.TextUtils;
import android.util.Log;
import android.util.LruCache;
import com.android.inputmethod.annotations.UsedForTesting;
import com.android.inputmethod.keyboard.Keyboard;
import com.android.inputmethod.latin.NgramContext.WordInfo;
import com.android.inputmethod.latin.SuggestedWords.SuggestedWordInfo;
import com.android.inputmethod.latin.common.ComposedData;
import com.android.inputmethod.latin.common.Constants;
import com.android.inputmethod.latin.common.StringUtils;
import com.android.inputmethod.latin.personalization.UserHistoryDictionary;
import com.android.inputmethod.latin.settings.SettingsValuesForSuggestion;
import com.android.inputmethod.latin.utils.ExecutorUtils;
import com.android.inputmethod.latin.utils.SuggestionResults;
import java.io.File;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
/**
* Facilitates interaction with different kinds of dictionaries. Provides APIs
* to instantiate and select the correct dictionaries (based on language or account),
* update entries and fetch suggestions.
*
* Currently AndroidSpellCheckerService and LatinIME both use DictionaryFacilitator as
* a client for interacting with dictionaries.
*/
public class DictionaryFacilitatorImpl implements DictionaryFacilitator {
// TODO: Consolidate dictionaries in native code.
public static final String TAG = DictionaryFacilitatorImpl.class.getSimpleName();
// HACK: This threshold is being used when adding a capitalized entry in the User History
// dictionary.
private static final int CAPITALIZED_FORM_MAX_PROBABILITY_FOR_INSERT = 140;
private DictionaryGroup mDictionaryGroup = new DictionaryGroup();
private volatile CountDownLatch mLatchForWaitingLoadingMainDictionaries = new CountDownLatch(0);
// To synchronize assigning mDictionaryGroup to ensure closing dictionaries.
private final Object mLock = new Object();
public static final Map<String, Class<? extends ExpandableBinaryDictionary>>
DICT_TYPE_TO_CLASS = new HashMap<>();
static {
DICT_TYPE_TO_CLASS.put(Dictionary.TYPE_USER_HISTORY, UserHistoryDictionary.class);
DICT_TYPE_TO_CLASS.put(Dictionary.TYPE_USER, UserBinaryDictionary.class);
DICT_TYPE_TO_CLASS.put(Dictionary.TYPE_CONTACTS, ContactsBinaryDictionary.class);
}
private static final String DICT_FACTORY_METHOD_NAME = "getDictionary";
private static final Class<?>[] DICT_FACTORY_METHOD_ARG_TYPES =
new Class[] { Context.class, Locale.class, File.class, String.class, String.class };
private LruCache<String, Boolean> mValidSpellingWordReadCache;
private LruCache<String, Boolean> mValidSpellingWordWriteCache;
@Override
public void setValidSpellingWordReadCache(final LruCache<String, Boolean> cache) {
mValidSpellingWordReadCache = cache;
}
@Override
public void setValidSpellingWordWriteCache(final LruCache<String, Boolean> cache) {
mValidSpellingWordWriteCache = cache;
}
@Override
public boolean isForLocale(final Locale locale) {
return locale != null && locale.equals(mDictionaryGroup.mLocale);
}
/**
* Returns whether this facilitator is exactly for this account.
*
* @param account the account to test against.
*/
public boolean isForAccount(@Nullable final String account) {
return TextUtils.equals(mDictionaryGroup.mAccount, account);
}
/**
* A group of dictionaries that work together for a single language.
*/
private static class DictionaryGroup {
// TODO: Add null analysis annotations.
// TODO: Run evaluation to determine a reasonable value for these constants. The current
// values are ad-hoc and chosen without any particular care or methodology.
public static final float WEIGHT_FOR_MOST_PROBABLE_LANGUAGE = 1.0f;
public static final float WEIGHT_FOR_GESTURING_IN_NOT_MOST_PROBABLE_LANGUAGE = 0.95f;
public static final float WEIGHT_FOR_TYPING_IN_NOT_MOST_PROBABLE_LANGUAGE = 0.6f;
/**
* The locale associated with the dictionary group.
*/
@Nullable public final Locale mLocale;
/**
* The user account associated with the dictionary group.
*/
@Nullable public final String mAccount;
@Nullable private Dictionary mMainDict;
// Confidence that the most probable language is actually the language the user is
// typing in. For now, this is simply the number of times a word from this language
// has been committed in a row.
private int mConfidence = 0;
public float mWeightForTypingInLocale = WEIGHT_FOR_MOST_PROBABLE_LANGUAGE;
public float mWeightForGesturingInLocale = WEIGHT_FOR_MOST_PROBABLE_LANGUAGE;
public final ConcurrentHashMap<String, ExpandableBinaryDictionary> mSubDictMap =
new ConcurrentHashMap<>();
public DictionaryGroup() {
this(null /* locale */, null /* mainDict */, null /* account */,
Collections.<String, ExpandableBinaryDictionary>emptyMap() /* subDicts */);
}
public DictionaryGroup(@Nullable final Locale locale,
@Nullable final Dictionary mainDict,
@Nullable final String account,
final Map<String, ExpandableBinaryDictionary> subDicts) {
mLocale = locale;
mAccount = account;
// The main dictionary can be asynchronously loaded.
setMainDict(mainDict);
for (final Map.Entry<String, ExpandableBinaryDictionary> entry : subDicts.entrySet()) {
setSubDict(entry.getKey(), entry.getValue());
}
}
private void setSubDict(final String dictType, final ExpandableBinaryDictionary dict) {
if (dict != null) {
mSubDictMap.put(dictType, dict);
}
}
public void setMainDict(final Dictionary mainDict) {
// Close old dictionary if exists. Main dictionary can be assigned multiple times.
final Dictionary oldDict = mMainDict;
mMainDict = mainDict;
if (oldDict != null && mainDict != oldDict) {
oldDict.close();
}
}
public Dictionary getDict(final String dictType) {
if (Dictionary.TYPE_MAIN.equals(dictType)) {
return mMainDict;
}
return getSubDict(dictType);
}
public ExpandableBinaryDictionary getSubDict(final String dictType) {
return mSubDictMap.get(dictType);
}
public boolean hasDict(final String dictType, @Nullable final String account) {
if (Dictionary.TYPE_MAIN.equals(dictType)) {
return mMainDict != null;
}
if (Dictionary.TYPE_USER_HISTORY.equals(dictType) &&
!TextUtils.equals(account, mAccount)) {
// If the dictionary type is user history, & if the account doesn't match,
// return immediately. If the account matches, continue looking it up in the
// sub dictionary map.
return false;
}
return mSubDictMap.containsKey(dictType);
}
public void closeDict(final String dictType) {
final Dictionary dict;
if (Dictionary.TYPE_MAIN.equals(dictType)) {
dict = mMainDict;
} else {
dict = mSubDictMap.remove(dictType);
}
if (dict != null) {
dict.close();
}
}
}
public DictionaryFacilitatorImpl() {
}
@Override
public void onStartInput() {
}
@Override
public void onFinishInput(Context context) {
}
@Override
public boolean isActive() {
return mDictionaryGroup.mLocale != null;
}
@Override
public Locale getLocale() {
return mDictionaryGroup.mLocale;
}
@Override
public boolean usesContacts() {
return mDictionaryGroup.getSubDict(Dictionary.TYPE_CONTACTS) != null;
}
@Override
public String getAccount() {
return null;
}
@Nullable
private static ExpandableBinaryDictionary getSubDict(final String dictType,
final Context context, final Locale locale, final File dictFile,
final String dictNamePrefix, @Nullable final String account) {
final Class<? extends ExpandableBinaryDictionary> dictClass =
DICT_TYPE_TO_CLASS.get(dictType);
if (dictClass == null) {
return null;
}
try {
final Method factoryMethod = dictClass.getMethod(DICT_FACTORY_METHOD_NAME,
DICT_FACTORY_METHOD_ARG_TYPES);
final Object dict = factoryMethod.invoke(null /* obj */,
new Object[] { context, locale, dictFile, dictNamePrefix, account });
return (ExpandableBinaryDictionary) dict;
} catch (final NoSuchMethodException | SecurityException | IllegalAccessException
| IllegalArgumentException | InvocationTargetException e) {
Log.e(TAG, "Cannot create dictionary: " + dictType, e);
return null;
}
}
@Nullable
static DictionaryGroup findDictionaryGroupWithLocale(final DictionaryGroup dictionaryGroup,
final Locale locale) {
return locale.equals(dictionaryGroup.mLocale) ? dictionaryGroup : null;
}
@Override
public void resetDictionaries(
final Context context,
final Locale newLocale,
final boolean useContactsDict,
final boolean usePersonalizedDicts,
final boolean forceReloadMainDictionary,
@Nullable final String account,
final String dictNamePrefix,
@Nullable final DictionaryInitializationListener listener) {
final HashMap<Locale, ArrayList<String>> existingDictionariesToCleanup = new HashMap<>();
// TODO: Make subDictTypesToUse configurable by resource or a static final list.
final HashSet<String> subDictTypesToUse = new HashSet<>();
subDictTypesToUse.add(Dictionary.TYPE_USER);
if (useContactsDict) {
subDictTypesToUse.add(Dictionary.TYPE_CONTACTS);
}
if (usePersonalizedDicts) {
subDictTypesToUse.add(Dictionary.TYPE_USER_HISTORY);
}
// Gather all dictionaries. We'll remove them from the list to clean up later.
final ArrayList<String> dictTypeForLocale = new ArrayList<>();
existingDictionariesToCleanup.put(newLocale, dictTypeForLocale);
final DictionaryGroup currentDictionaryGroupForLocale =
findDictionaryGroupWithLocale(mDictionaryGroup, newLocale);
if (currentDictionaryGroupForLocale != null) {
for (final String dictType : DYNAMIC_DICTIONARY_TYPES) {
if (currentDictionaryGroupForLocale.hasDict(dictType, account)) {
dictTypeForLocale.add(dictType);
}
}
if (currentDictionaryGroupForLocale.hasDict(Dictionary.TYPE_MAIN, account)) {
dictTypeForLocale.add(Dictionary.TYPE_MAIN);
}
}
final DictionaryGroup dictionaryGroupForLocale =
findDictionaryGroupWithLocale(mDictionaryGroup, newLocale);
final ArrayList<String> dictTypesToCleanupForLocale =
existingDictionariesToCleanup.get(newLocale);
final boolean noExistingDictsForThisLocale = (null == dictionaryGroupForLocale);
final Dictionary mainDict;
if (forceReloadMainDictionary || noExistingDictsForThisLocale
|| !dictionaryGroupForLocale.hasDict(Dictionary.TYPE_MAIN, account)) {
mainDict = null;
} else {
mainDict = dictionaryGroupForLocale.getDict(Dictionary.TYPE_MAIN);
dictTypesToCleanupForLocale.remove(Dictionary.TYPE_MAIN);
}
final Map<String, ExpandableBinaryDictionary> subDicts = new HashMap<>();
for (final String subDictType : subDictTypesToUse) {
final ExpandableBinaryDictionary subDict;
if (noExistingDictsForThisLocale
|| !dictionaryGroupForLocale.hasDict(subDictType, account)) {
// Create a new dictionary.
subDict = getSubDict(subDictType, context, newLocale, null /* dictFile */,
dictNamePrefix, account);
} else {
// Reuse the existing dictionary, and don't close it at the end
subDict = dictionaryGroupForLocale.getSubDict(subDictType);
dictTypesToCleanupForLocale.remove(subDictType);
}
subDicts.put(subDictType, subDict);
}
DictionaryGroup newDictionaryGroup =
new DictionaryGroup(newLocale, mainDict, account, subDicts);
// Replace Dictionaries.
final DictionaryGroup oldDictionaryGroup;
synchronized (mLock) {
oldDictionaryGroup = mDictionaryGroup;
mDictionaryGroup = newDictionaryGroup;
if (hasAtLeastOneUninitializedMainDictionary()) {
asyncReloadUninitializedMainDictionaries(context, newLocale, listener);
}
}
if (listener != null) {
listener.onUpdateMainDictionaryAvailability(hasAtLeastOneInitializedMainDictionary());
}
// Clean up old dictionaries.
for (final Locale localeToCleanUp : existingDictionariesToCleanup.keySet()) {
final ArrayList<String> dictTypesToCleanUp =
existingDictionariesToCleanup.get(localeToCleanUp);
final DictionaryGroup dictionarySetToCleanup =
findDictionaryGroupWithLocale(oldDictionaryGroup, localeToCleanUp);
for (final String dictType : dictTypesToCleanUp) {
dictionarySetToCleanup.closeDict(dictType);
}
}
if (mValidSpellingWordWriteCache != null) {
mValidSpellingWordWriteCache.evictAll();
}
}
private void asyncReloadUninitializedMainDictionaries(final Context context,
final Locale locale, final DictionaryInitializationListener listener) {
final CountDownLatch latchForWaitingLoadingMainDictionary = new CountDownLatch(1);
mLatchForWaitingLoadingMainDictionaries = latchForWaitingLoadingMainDictionary;
ExecutorUtils.getBackgroundExecutor(ExecutorUtils.KEYBOARD).execute(new Runnable() {
@Override
public void run() {
doReloadUninitializedMainDictionaries(
context, locale, listener, latchForWaitingLoadingMainDictionary);
}
});
}
void doReloadUninitializedMainDictionaries(final Context context, final Locale locale,
final DictionaryInitializationListener listener,
final CountDownLatch latchForWaitingLoadingMainDictionary) {
final DictionaryGroup dictionaryGroup =
findDictionaryGroupWithLocale(mDictionaryGroup, locale);
if (null == dictionaryGroup) {
// This should never happen, but better safe than crashy
Log.w(TAG, "Expected a dictionary group for " + locale + " but none found");
return;
}
final Dictionary mainDict =
DictionaryFactory.createMainDictionaryFromManager(context, locale);
synchronized (mLock) {
if (locale.equals(dictionaryGroup.mLocale)) {
dictionaryGroup.setMainDict(mainDict);
} else {
// Dictionary facilitator has been reset for another locale.
mainDict.close();
}
}
if (listener != null) {
listener.onUpdateMainDictionaryAvailability(hasAtLeastOneInitializedMainDictionary());
}
latchForWaitingLoadingMainDictionary.countDown();
}
@UsedForTesting
public void resetDictionariesForTesting(final Context context, final Locale locale,
final ArrayList<String> dictionaryTypes, final HashMap<String, File> dictionaryFiles,
final Map<String, Map<String, String>> additionalDictAttributes,
@Nullable final String account) {
Dictionary mainDictionary = null;
final Map<String, ExpandableBinaryDictionary> subDicts = new HashMap<>();
for (final String dictType : dictionaryTypes) {
if (dictType.equals(Dictionary.TYPE_MAIN)) {
mainDictionary = DictionaryFactory.createMainDictionaryFromManager(context,
locale);
} else {
final File dictFile = dictionaryFiles.get(dictType);
final ExpandableBinaryDictionary dict = getSubDict(
dictType, context, locale, dictFile, "" /* dictNamePrefix */, account);
if (additionalDictAttributes.containsKey(dictType)) {
dict.clearAndFlushDictionaryWithAdditionalAttributes(
additionalDictAttributes.get(dictType));
}
if (dict == null) {
throw new RuntimeException("Unknown dictionary type: " + dictType);
}
dict.reloadDictionaryIfRequired();
dict.waitAllTasksForTests();
subDicts.put(dictType, dict);
}
}
mDictionaryGroup = new DictionaryGroup(locale, mainDictionary, account, subDicts);
}
public void closeDictionaries() {
final DictionaryGroup dictionaryGroupToClose;
synchronized (mLock) {
dictionaryGroupToClose = mDictionaryGroup;
mDictionaryGroup = new DictionaryGroup();
}
for (final String dictType : ALL_DICTIONARY_TYPES) {
dictionaryGroupToClose.closeDict(dictType);
}
}
@UsedForTesting
public ExpandableBinaryDictionary getSubDictForTesting(final String dictName) {
return mDictionaryGroup.getSubDict(dictName);
}
// The main dictionaries are loaded asynchronously. Don't cache the return value
// of these methods.
public boolean hasAtLeastOneInitializedMainDictionary() {
final Dictionary mainDict = mDictionaryGroup.getDict(Dictionary.TYPE_MAIN);
if (mainDict != null && mainDict.isInitialized()) {
return true;
}
return false;
}
public boolean hasAtLeastOneUninitializedMainDictionary() {
final Dictionary mainDict = mDictionaryGroup.getDict(Dictionary.TYPE_MAIN);
if (mainDict == null || !mainDict.isInitialized()) {
return true;
}
return false;
}
public void waitForLoadingMainDictionaries(final long timeout, final TimeUnit unit)
throws InterruptedException {
mLatchForWaitingLoadingMainDictionaries.await(timeout, unit);
}
@UsedForTesting
public void waitForLoadingDictionariesForTesting(final long timeout, final TimeUnit unit)
throws InterruptedException {
waitForLoadingMainDictionaries(timeout, unit);
for (final ExpandableBinaryDictionary dict : mDictionaryGroup.mSubDictMap.values()) {
dict.waitAllTasksForTests();
}
}
public void addToUserHistory(final String suggestion, final boolean wasAutoCapitalized,
@Nonnull final NgramContext ngramContext, final long timeStampInSeconds,
final boolean blockPotentiallyOffensive) {
// Update the spelling cache before learning. Words that are not yet added to user history
// and appear in no other language model are not considered valid.
putWordIntoValidSpellingWordCache("addToUserHistory", suggestion);
final String[] words = suggestion.split(Constants.WORD_SEPARATOR);
NgramContext ngramContextForCurrentWord = ngramContext;
for (int i = 0; i < words.length; i++) {
final String currentWord = words[i];
final boolean wasCurrentWordAutoCapitalized = (i == 0) ? wasAutoCapitalized : false;
addWordToUserHistory(mDictionaryGroup, ngramContextForCurrentWord, currentWord,
wasCurrentWordAutoCapitalized, (int) timeStampInSeconds,
blockPotentiallyOffensive);
ngramContextForCurrentWord =
ngramContextForCurrentWord.getNextNgramContext(new WordInfo(currentWord));
}
}
private void putWordIntoValidSpellingWordCache(
@Nonnull final String caller,
@Nonnull final String originalWord) {
if (mValidSpellingWordWriteCache == null) {
return;
}
final String lowerCaseWord = originalWord.toLowerCase(getLocale());
final boolean lowerCaseValid = isValidSpellingWord(lowerCaseWord);
mValidSpellingWordWriteCache.put(lowerCaseWord, lowerCaseValid);
final String capitalWord =
StringUtils.capitalizeFirstAndDowncaseRest(originalWord, getLocale());
final boolean capitalValid;
if (lowerCaseValid) {
// The lower case form of the word is valid, so the upper case must be valid.
capitalValid = true;
} else {
capitalValid = isValidSpellingWord(capitalWord);
}
mValidSpellingWordWriteCache.put(capitalWord, capitalValid);
}
private void addWordToUserHistory(final DictionaryGroup dictionaryGroup,
final NgramContext ngramContext, final String word, final boolean wasAutoCapitalized,
final int timeStampInSeconds, final boolean blockPotentiallyOffensive) {
final ExpandableBinaryDictionary userHistoryDictionary =
dictionaryGroup.getSubDict(Dictionary.TYPE_USER_HISTORY);
if (userHistoryDictionary == null || !isForLocale(userHistoryDictionary.mLocale)) {
return;
}
final int maxFreq = getFrequency(word);
if (maxFreq == 0 && blockPotentiallyOffensive) {
return;
}
final String lowerCasedWord = word.toLowerCase(dictionaryGroup.mLocale);
final String secondWord;
if (wasAutoCapitalized) {
if (isValidSuggestionWord(word) && !isValidSuggestionWord(lowerCasedWord)) {
// If the word was auto-capitalized and exists only as a capitalized word in the
// dictionary, then we must not downcase it before registering it. For example,
// the name of the contacts in start-of-sentence position would come here with the
// wasAutoCapitalized flag: if we downcase it, we'd register a lower-case version
// of that contact's name which would end up popping in suggestions.
secondWord = word;
} else {
// If however the word is not in the dictionary, or exists as a lower-case word
// only, then we consider that was a lower-case word that had been auto-capitalized.
secondWord = lowerCasedWord;
}
} else {
// HACK: We'd like to avoid adding the capitalized form of common words to the User
// History dictionary in order to avoid suggesting them until the dictionary
// consolidation is done.
// TODO: Remove this hack when ready.
final int lowerCaseFreqInMainDict = dictionaryGroup.hasDict(Dictionary.TYPE_MAIN,
null /* account */) ?
dictionaryGroup.getDict(Dictionary.TYPE_MAIN).getFrequency(lowerCasedWord) :
Dictionary.NOT_A_PROBABILITY;
if (maxFreq < lowerCaseFreqInMainDict
&& lowerCaseFreqInMainDict >= CAPITALIZED_FORM_MAX_PROBABILITY_FOR_INSERT) {
// Use lower cased word as the word can be a distracter of the popular word.
secondWord = lowerCasedWord;
} else {
secondWord = word;
}
}
// We demote unrecognized words (frequency < 0, below) by specifying them as "invalid".
// We don't add words with 0-frequency (assuming they would be profanity etc.).
final boolean isValid = maxFreq > 0;
UserHistoryDictionary.addToDictionary(userHistoryDictionary, ngramContext, secondWord,
isValid, timeStampInSeconds);
}
private void removeWord(final String dictName, final String word) {
final ExpandableBinaryDictionary dictionary = mDictionaryGroup.getSubDict(dictName);
if (dictionary != null) {
dictionary.removeUnigramEntryDynamically(word);
}
}
@Override
public void unlearnFromUserHistory(final String word,
@Nonnull final NgramContext ngramContext, final long timeStampInSeconds,
final int eventType) {
// TODO: Decide whether or not to remove the word on EVENT_BACKSPACE.
if (eventType != Constants.EVENT_BACKSPACE) {
removeWord(Dictionary.TYPE_USER_HISTORY, word);
}
// Update the spelling cache after unlearning. Words that are removed from user history
// and appear in no other language model are not considered valid.
putWordIntoValidSpellingWordCache("unlearnFromUserHistory", word.toLowerCase());
}
// TODO: Revise the way to fusion suggestion results.
@Override
@Nonnull public SuggestionResults getSuggestionResults(ComposedData composedData,
NgramContext ngramContext, @Nonnull final Keyboard keyboard,
SettingsValuesForSuggestion settingsValuesForSuggestion, int sessionId,
int inputStyle) {
long proximityInfoHandle = keyboard.getProximityInfo().getNativeProximityInfo();
final SuggestionResults suggestionResults = new SuggestionResults(
SuggestedWords.MAX_SUGGESTIONS, ngramContext.isBeginningOfSentenceContext(),
false /* firstSuggestionExceedsConfidenceThreshold */);
final float[] weightOfLangModelVsSpatialModel =
new float[] { Dictionary.NOT_A_WEIGHT_OF_LANG_MODEL_VS_SPATIAL_MODEL };
for (final String dictType : ALL_DICTIONARY_TYPES) {
final Dictionary dictionary = mDictionaryGroup.getDict(dictType);
if (null == dictionary) continue;
final float weightForLocale = composedData.mIsBatchMode
? mDictionaryGroup.mWeightForGesturingInLocale
: mDictionaryGroup.mWeightForTypingInLocale;
final ArrayList<SuggestedWordInfo> dictionarySuggestions =
dictionary.getSuggestions(composedData, ngramContext,
proximityInfoHandle, settingsValuesForSuggestion, sessionId,
weightForLocale, weightOfLangModelVsSpatialModel);
if (null == dictionarySuggestions) continue;
suggestionResults.addAll(dictionarySuggestions);
if (null != suggestionResults.mRawSuggestions) {
suggestionResults.mRawSuggestions.addAll(dictionarySuggestions);
}
}
return suggestionResults;
}
public boolean isValidSpellingWord(final String word) {
if (mValidSpellingWordReadCache != null) {
final Boolean cachedValue = mValidSpellingWordReadCache.get(word);
if (cachedValue != null) {
return cachedValue;
}
}
return isValidWord(word, ALL_DICTIONARY_TYPES);
}
public boolean isValidSuggestionWord(final String word) {
return isValidWord(word, ALL_DICTIONARY_TYPES);
}
private boolean isValidWord(final String word, final String[] dictionariesToCheck) {
if (TextUtils.isEmpty(word)) {
return false;
}
if (mDictionaryGroup.mLocale == null) {
return false;
}
for (final String dictType : dictionariesToCheck) {
final Dictionary dictionary = mDictionaryGroup.getDict(dictType);
// Ideally the passed map would come out of a {@link java.util.concurrent.Future} and
// would be immutable once it's finished initializing, but concretely a null test is
// probably good enough for the time being.
if (null == dictionary) continue;
if (dictionary.isValidWord(word)) {
return true;
}
}
return false;
}
private int getFrequency(final String word) {
if (TextUtils.isEmpty(word)) {
return Dictionary.NOT_A_PROBABILITY;
}
int maxFreq = Dictionary.NOT_A_PROBABILITY;
for (final String dictType : ALL_DICTIONARY_TYPES) {
final Dictionary dictionary = mDictionaryGroup.getDict(dictType);
if (dictionary == null) continue;
final int tempFreq = dictionary.getFrequency(word);
if (tempFreq >= maxFreq) {
maxFreq = tempFreq;
}
}
return maxFreq;
}
private boolean clearSubDictionary(final String dictName) {
final ExpandableBinaryDictionary dictionary = mDictionaryGroup.getSubDict(dictName);
if (dictionary == null) {
return false;
}
dictionary.clear();
return true;
}
@Override
public boolean clearUserHistoryDictionary(final Context context) {
return clearSubDictionary(Dictionary.TYPE_USER_HISTORY);
}
@Override
public void dumpDictionaryForDebug(final String dictName) {
final ExpandableBinaryDictionary dictToDump = mDictionaryGroup.getSubDict(dictName);
if (dictToDump == null) {
Log.e(TAG, "Cannot dump " + dictName + ". "
+ "The dictionary is not being used for suggestion or cannot be dumped.");
return;
}
dictToDump.dumpAllWordsForDebug();
}
@Override
@Nonnull public List<DictionaryStats> getDictionaryStats(final Context context) {
final ArrayList<DictionaryStats> statsOfEnabledSubDicts = new ArrayList<>();
for (final String dictType : DYNAMIC_DICTIONARY_TYPES) {
final ExpandableBinaryDictionary dictionary = mDictionaryGroup.getSubDict(dictType);
if (dictionary == null) continue;
statsOfEnabledSubDicts.add(dictionary.getDictionaryStats());
}
return statsOfEnabledSubDicts;
}
@Override
public String dump(final Context context) {
return "";
}
}
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