/* * Copyright (C) 2008 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.preference.PreferenceManager; import android.text.TextUtils; import android.util.Log; import com.android.inputmethod.annotations.UsedForTesting; import com.android.inputmethod.keyboard.ProximityInfo; import com.android.inputmethod.latin.SuggestedWords.SuggestedWordInfo; import com.android.inputmethod.latin.personalization.PersonalizationDictionary; import com.android.inputmethod.latin.personalization.PersonalizationPredictionDictionary; import com.android.inputmethod.latin.personalization.UserHistoryPredictionDictionary; import com.android.inputmethod.latin.settings.Settings; import com.android.inputmethod.latin.utils.AutoCorrectionUtils; import com.android.inputmethod.latin.utils.BoundedTreeSet; import com.android.inputmethod.latin.utils.CollectionUtils; import com.android.inputmethod.latin.utils.StringUtils; import java.util.ArrayList; import java.util.Comparator; import java.util.HashSet; import java.util.Locale; import java.util.concurrent.ConcurrentHashMap; /** * This class loads a dictionary and provides a list of suggestions for a given sequence of * characters. This includes corrections and completions. */ public final class Suggest { public static final String TAG = Suggest.class.getSimpleName(); // Session id for // {@link #getSuggestedWords(WordComposer,String,ProximityInfo,boolean,int)}. public static final int SESSION_TYPING = 0; public static final int SESSION_GESTURE = 1; // TODO: rename this to CORRECTION_OFF public static final int CORRECTION_NONE = 0; // TODO: rename this to CORRECTION_ON public static final int CORRECTION_FULL = 1; // Close to -2**31 private static final int SUPPRESS_SUGGEST_THRESHOLD = -2000000000; public static final int MAX_SUGGESTIONS = 18; public interface SuggestInitializationListener { public void onUpdateMainDictionaryAvailability(boolean isMainDictionaryAvailable); } private static final boolean DBG = LatinImeLogger.sDBG; private final ConcurrentHashMap mDictionaries = CollectionUtils.newConcurrentHashMap(); private HashSet mOnlyDictionarySetForDebug = null; private Dictionary mMainDictionary; private ContactsBinaryDictionary mContactsDict; @UsedForTesting private boolean mIsCurrentlyWaitingForMainDictionary = false; private float mAutoCorrectionThreshold; // Locale used for upper- and title-casing words public final Locale mLocale; public Suggest(final Context context, final Locale locale, final SuggestInitializationListener listener) { initAsynchronously(context, locale, listener); mLocale = locale; // initialize a debug flag for the personalization if (Settings.readUseOnlyPersonalizationDictionaryForDebug( PreferenceManager.getDefaultSharedPreferences(context))) { mOnlyDictionarySetForDebug = new HashSet(); mOnlyDictionarySetForDebug.add(Dictionary.TYPE_PERSONALIZATION); mOnlyDictionarySetForDebug.add(Dictionary.TYPE_PERSONALIZATION_PREDICTION_IN_JAVA); } } @UsedForTesting Suggest(final AssetFileAddress[] dictionaryList, final Locale locale) { final Dictionary mainDict = DictionaryFactory.createDictionaryForTest(dictionaryList, false /* useFullEditDistance */, locale); mLocale = locale; mMainDictionary = mainDict; addOrReplaceDictionaryInternal(Dictionary.TYPE_MAIN, mainDict); } private void initAsynchronously(final Context context, final Locale locale, final SuggestInitializationListener listener) { resetMainDict(context, locale, listener); } private void addOrReplaceDictionaryInternal(final String key, final Dictionary dict) { if (mOnlyDictionarySetForDebug != null && !mOnlyDictionarySetForDebug.contains(key)) { Log.w(TAG, "Ignore add " + key + " dictionary for debug."); return; } addOrReplaceDictionary(mDictionaries, key, dict); } private static void addOrReplaceDictionary( final ConcurrentHashMap dictionaries, final String key, final Dictionary dict) { final Dictionary oldDict = (dict == null) ? dictionaries.remove(key) : dictionaries.put(key, dict); if (oldDict != null && dict != oldDict) { oldDict.close(); } } public void resetMainDict(final Context context, final Locale locale, final SuggestInitializationListener listener) { mIsCurrentlyWaitingForMainDictionary = true; mMainDictionary = null; if (listener != null) { listener.onUpdateMainDictionaryAvailability(hasMainDictionary()); } new Thread("InitializeBinaryDictionary") { @Override public void run() { final DictionaryCollection newMainDict = DictionaryFactory.createMainDictionaryFromManager(context, locale); addOrReplaceDictionaryInternal(Dictionary.TYPE_MAIN, newMainDict); mMainDictionary = newMainDict; if (listener != null) { listener.onUpdateMainDictionaryAvailability(hasMainDictionary()); } mIsCurrentlyWaitingForMainDictionary = false; } }.start(); } // The main dictionary could have been loaded asynchronously. Don't cache the return value // of this method. public boolean hasMainDictionary() { return null != mMainDictionary && mMainDictionary.isInitialized(); } @UsedForTesting public boolean isCurrentlyWaitingForMainDictionary() { return mIsCurrentlyWaitingForMainDictionary; } public Dictionary getMainDictionary() { return mMainDictionary; } public ContactsBinaryDictionary getContactsDictionary() { return mContactsDict; } public ConcurrentHashMap getUnigramDictionaries() { return mDictionaries; } /** * Sets an optional user dictionary resource to be loaded. The user dictionary is consulted * before the main dictionary, if set. This refers to the system-managed user dictionary. */ public void setUserDictionary(final UserBinaryDictionary userDictionary) { addOrReplaceDictionaryInternal(Dictionary.TYPE_USER, userDictionary); } /** * Sets an optional contacts dictionary resource to be loaded. It is also possible to remove * the contacts dictionary by passing null to this method. In this case no contacts dictionary * won't be used. */ public void setContactsDictionary(final ContactsBinaryDictionary contactsDictionary) { mContactsDict = contactsDictionary; addOrReplaceDictionaryInternal(Dictionary.TYPE_CONTACTS, contactsDictionary); } public void setUserHistoryPredictionDictionary( final UserHistoryPredictionDictionary userHistoryPredictionDictionary) { addOrReplaceDictionaryInternal(Dictionary.TYPE_USER_HISTORY, userHistoryPredictionDictionary); } public void setPersonalizationPredictionDictionary( final PersonalizationPredictionDictionary personalizationPredictionDictionary) { addOrReplaceDictionaryInternal(Dictionary.TYPE_PERSONALIZATION_PREDICTION_IN_JAVA, personalizationPredictionDictionary); } public void setPersonalizationDictionary( final PersonalizationDictionary personalizationDictionary) { addOrReplaceDictionaryInternal(Dictionary.TYPE_PERSONALIZATION, personalizationDictionary); } public void setAutoCorrectionThreshold(float threshold) { mAutoCorrectionThreshold = threshold; } public SuggestedWords getSuggestedWords(final WordComposer wordComposer, final String prevWordForBigram, final ProximityInfo proximityInfo, final boolean blockOffensiveWords, final boolean isCorrectionEnabled, final int[] additionalFeaturesOptions, final int sessionId) { LatinImeLogger.onStartSuggestion(prevWordForBigram); if (wordComposer.isBatchMode()) { return getSuggestedWordsForBatchInput( wordComposer, prevWordForBigram, proximityInfo, blockOffensiveWords, additionalFeaturesOptions, sessionId); } else { return getSuggestedWordsForTypingInput(wordComposer, prevWordForBigram, proximityInfo, blockOffensiveWords, isCorrectionEnabled, additionalFeaturesOptions); } } // Retrieves suggestions for the typing input. private SuggestedWords getSuggestedWordsForTypingInput(final WordComposer wordComposer, final String prevWordForBigram, final ProximityInfo proximityInfo, final boolean blockOffensiveWords, final boolean isCorrectionEnabled, final int[] additionalFeaturesOptions) { final int trailingSingleQuotesCount = wordComposer.trailingSingleQuotesCount(); final BoundedTreeSet suggestionsSet = new BoundedTreeSet(sSuggestedWordInfoComparator, MAX_SUGGESTIONS); final String typedWord = wordComposer.getTypedWord(); final String consideredWord = trailingSingleQuotesCount > 0 ? typedWord.substring(0, typedWord.length() - trailingSingleQuotesCount) : typedWord; LatinImeLogger.onAddSuggestedWord(typedWord, Dictionary.TYPE_USER_TYPED); final WordComposer wordComposerForLookup; if (trailingSingleQuotesCount > 0) { wordComposerForLookup = new WordComposer(wordComposer); for (int i = trailingSingleQuotesCount - 1; i >= 0; --i) { wordComposerForLookup.deleteLast(); } } else { wordComposerForLookup = wordComposer; } for (final String key : mDictionaries.keySet()) { final Dictionary dictionary = mDictionaries.get(key); suggestionsSet.addAll(dictionary.getSuggestions( wordComposerForLookup, prevWordForBigram, proximityInfo, blockOffensiveWords, additionalFeaturesOptions)); } final String whitelistedWord; if (suggestionsSet.isEmpty()) { whitelistedWord = null; } else if (SuggestedWordInfo.KIND_WHITELIST != suggestionsSet.first().mKind) { whitelistedWord = null; } else { whitelistedWord = suggestionsSet.first().mWord; } // The word can be auto-corrected if it has a whitelist entry that is not itself, // or if it's a 2+ characters non-word (i.e. it's not in the dictionary). final boolean allowsToBeAutoCorrected = (null != whitelistedWord && !whitelistedWord.equals(consideredWord)) || (consideredWord.length() > 1 && !AutoCorrectionUtils.isValidWord(this, consideredWord, wordComposer.isFirstCharCapitalized())); final boolean hasAutoCorrection; // TODO: using isCorrectionEnabled here is not very good. It's probably useless, because // any attempt to do auto-correction is already shielded with a test for this flag; at the // same time, it feels wrong that the SuggestedWord object includes information about // the current settings. It may also be useful to know, when the setting is off, whether // the word *would* have been auto-corrected. if (!isCorrectionEnabled || !allowsToBeAutoCorrected || !wordComposer.isComposingWord() || suggestionsSet.isEmpty() || wordComposer.hasDigits() || wordComposer.isMostlyCaps() || wordComposer.isResumed() || !hasMainDictionary()) { // If we don't have a main dictionary, we never want to auto-correct. The reason for // this is, the user may have a contact whose name happens to match a valid word in // their language, and it will unexpectedly auto-correct. For example, if the user // types in English with no dictionary and has a "Will" in their contact list, "will" // would always auto-correct to "Will" which is unwanted. Hence, no main dict => no // auto-correct. hasAutoCorrection = false; } else { hasAutoCorrection = AutoCorrectionUtils.suggestionExceedsAutoCorrectionThreshold( suggestionsSet.first(), consideredWord, mAutoCorrectionThreshold); } final ArrayList suggestionsContainer = CollectionUtils.newArrayList(suggestionsSet); final int suggestionsCount = suggestionsContainer.size(); final boolean isFirstCharCapitalized = wordComposer.isFirstCharCapitalized(); final boolean isAllUpperCase = wordComposer.isAllUpperCase(); if (isFirstCharCapitalized || isAllUpperCase || 0 != trailingSingleQuotesCount) { for (int i = 0; i < suggestionsCount; ++i) { final SuggestedWordInfo wordInfo = suggestionsContainer.get(i); final SuggestedWordInfo transformedWordInfo = getTransformedSuggestedWordInfo( wordInfo, mLocale, isAllUpperCase, isFirstCharCapitalized, trailingSingleQuotesCount); suggestionsContainer.set(i, transformedWordInfo); } } for (int i = 0; i < suggestionsCount; ++i) { final SuggestedWordInfo wordInfo = suggestionsContainer.get(i); LatinImeLogger.onAddSuggestedWord(wordInfo.mWord.toString(), wordInfo.mSourceDict.mDictType); } if (!TextUtils.isEmpty(typedWord)) { suggestionsContainer.add(0, new SuggestedWordInfo(typedWord, SuggestedWordInfo.MAX_SCORE, SuggestedWordInfo.KIND_TYPED, Dictionary.DICTIONARY_USER_TYPED, SuggestedWordInfo.NOT_AN_INDEX /* indexOfTouchPointOfSecondWord */)); } SuggestedWordInfo.removeDups(suggestionsContainer); final ArrayList suggestionsList; if (DBG && !suggestionsContainer.isEmpty()) { suggestionsList = getSuggestionsInfoListWithDebugInfo(typedWord, suggestionsContainer); } else { suggestionsList = suggestionsContainer; } return new SuggestedWords(suggestionsList, // TODO: this first argument is lying. If this is a whitelisted word which is an // actual word, it says typedWordValid = false, which looks wrong. We should either // rename the attribute or change the value. !allowsToBeAutoCorrected /* typedWordValid */, hasAutoCorrection, /* willAutoCorrect */ false /* isPunctuationSuggestions */, false /* isObsoleteSuggestions */, !wordComposer.isComposingWord() /* isPrediction */); } // Retrieves suggestions for the batch input. private SuggestedWords getSuggestedWordsForBatchInput(final WordComposer wordComposer, final String prevWordForBigram, final ProximityInfo proximityInfo, final boolean blockOffensiveWords, final int[] additionalFeaturesOptions, final int sessionId) { final BoundedTreeSet suggestionsSet = new BoundedTreeSet(sSuggestedWordInfoComparator, MAX_SUGGESTIONS); // At second character typed, search the unigrams (scores being affected by bigrams) for (final String key : mDictionaries.keySet()) { // Skip User history dictionary for lookup // TODO: The user history dictionary should just override getSuggestionsWithSessionId // to make sure it doesn't return anything and we should remove this test if (key.equals(Dictionary.TYPE_USER_HISTORY)) { continue; } final Dictionary dictionary = mDictionaries.get(key); suggestionsSet.addAll(dictionary.getSuggestionsWithSessionId(wordComposer, prevWordForBigram, proximityInfo, blockOffensiveWords, additionalFeaturesOptions, sessionId)); } for (SuggestedWordInfo wordInfo : suggestionsSet) { LatinImeLogger.onAddSuggestedWord(wordInfo.mWord, wordInfo.mSourceDict.mDictType); } final ArrayList suggestionsContainer = CollectionUtils.newArrayList(suggestionsSet); final int suggestionsCount = suggestionsContainer.size(); final boolean isFirstCharCapitalized = wordComposer.wasShiftedNoLock(); final boolean isAllUpperCase = wordComposer.isAllUpperCase(); if (isFirstCharCapitalized || isAllUpperCase) { for (int i = 0; i < suggestionsCount; ++i) { final SuggestedWordInfo wordInfo = suggestionsContainer.get(i); final SuggestedWordInfo transformedWordInfo = getTransformedSuggestedWordInfo( wordInfo, mLocale, isAllUpperCase, isFirstCharCapitalized, 0 /* trailingSingleQuotesCount */); suggestionsContainer.set(i, transformedWordInfo); } } if (suggestionsContainer.size() > 1 && TextUtils.equals(suggestionsContainer.get(0).mWord, wordComposer.getRejectedBatchModeSuggestion())) { final SuggestedWordInfo rejected = suggestionsContainer.remove(0); suggestionsContainer.add(1, rejected); } SuggestedWordInfo.removeDups(suggestionsContainer); // For some reason some suggestions with MIN_VALUE are making their way here. // TODO: Find a more robust way to detect distractors. for (int i = suggestionsContainer.size() - 1; i >= 0; --i) { if (suggestionsContainer.get(i).mScore < SUPPRESS_SUGGEST_THRESHOLD) { suggestionsContainer.remove(i); } } // In the batch input mode, the most relevant suggested word should act as a "typed word" // (typedWordValid=true), not as an "auto correct word" (willAutoCorrect=false). return new SuggestedWords(suggestionsContainer, true /* typedWordValid */, false /* willAutoCorrect */, false /* isPunctuationSuggestions */, false /* isObsoleteSuggestions */, false /* isPrediction */); } private static ArrayList getSuggestionsInfoListWithDebugInfo( final String typedWord, final ArrayList suggestions) { final SuggestedWordInfo typedWordInfo = suggestions.get(0); typedWordInfo.setDebugString("+"); final int suggestionsSize = suggestions.size(); final ArrayList suggestionsList = CollectionUtils.newArrayList(suggestionsSize); suggestionsList.add(typedWordInfo); // Note: i here is the index in mScores[], but the index in mSuggestions is one more // than i because we added the typed word to mSuggestions without touching mScores. for (int i = 0; i < suggestionsSize - 1; ++i) { final SuggestedWordInfo cur = suggestions.get(i + 1); final float normalizedScore = BinaryDictionary.calcNormalizedScore( typedWord, cur.toString(), cur.mScore); final String scoreInfoString; if (normalizedScore > 0) { scoreInfoString = String.format( Locale.ROOT, "%d (%4.2f)", cur.mScore, normalizedScore); } else { scoreInfoString = Integer.toString(cur.mScore); } cur.setDebugString(scoreInfoString); suggestionsList.add(cur); } return suggestionsList; } private static final class SuggestedWordInfoComparator implements Comparator { // This comparator ranks the word info with the higher frequency first. That's because // that's the order we want our elements in. @Override public int compare(final SuggestedWordInfo o1, final SuggestedWordInfo o2) { if (o1.mScore > o2.mScore) return -1; if (o1.mScore < o2.mScore) return 1; if (o1.mCodePointCount < o2.mCodePointCount) return -1; if (o1.mCodePointCount > o2.mCodePointCount) return 1; return o1.mWord.compareTo(o2.mWord); } } private static final SuggestedWordInfoComparator sSuggestedWordInfoComparator = new SuggestedWordInfoComparator(); private static SuggestedWordInfo getTransformedSuggestedWordInfo( final SuggestedWordInfo wordInfo, final Locale locale, final boolean isAllUpperCase, final boolean isFirstCharCapitalized, final int trailingSingleQuotesCount) { final StringBuilder sb = new StringBuilder(wordInfo.mWord.length()); if (isAllUpperCase) { sb.append(wordInfo.mWord.toUpperCase(locale)); } else if (isFirstCharCapitalized) { sb.append(StringUtils.capitalizeFirstCodePoint(wordInfo.mWord, locale)); } else { sb.append(wordInfo.mWord); } for (int i = trailingSingleQuotesCount - 1; i >= 0; --i) { sb.appendCodePoint(Constants.CODE_SINGLE_QUOTE); } return new SuggestedWordInfo(sb.toString(), wordInfo.mScore, wordInfo.mKind, wordInfo.mSourceDict, wordInfo.mIndexOfTouchPointOfSecondWord); } public void close() { final HashSet dictionaries = CollectionUtils.newHashSet(); dictionaries.addAll(mDictionaries.values()); for (final Dictionary dictionary : dictionaries) { dictionary.close(); } mMainDictionary = null; } }