/* * Copyright (C) 2010 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.text.TextUtils; import android.util.Log; import android.view.inputmethod.CompletionInfo; import com.android.inputmethod.annotations.UsedForTesting; import com.android.inputmethod.latin.common.Constants; import com.android.inputmethod.latin.common.StringUtils; import com.android.inputmethod.latin.define.DebugFlags; import java.util.ArrayList; import java.util.Arrays; import java.util.HashSet; import javax.annotation.Nonnull; import javax.annotation.Nullable; public class SuggestedWords { public static final int INDEX_OF_TYPED_WORD = 0; public static final int INDEX_OF_AUTO_CORRECTION = 1; public static final int NOT_A_SEQUENCE_NUMBER = -1; public static final int INPUT_STYLE_NONE = 0; public static final int INPUT_STYLE_TYPING = 1; public static final int INPUT_STYLE_UPDATE_BATCH = 2; public static final int INPUT_STYLE_TAIL_BATCH = 3; public static final int INPUT_STYLE_APPLICATION_SPECIFIED = 4; public static final int INPUT_STYLE_RECORRECTION = 5; public static final int INPUT_STYLE_PREDICTION = 6; public static final int INPUT_STYLE_BEGINNING_OF_SENTENCE_PREDICTION = 7; // The maximum number of suggestions available. public static final int MAX_SUGGESTIONS = 18; private static final ArrayList EMPTY_WORD_INFO_LIST = new ArrayList<>(0); @Nonnull private static final SuggestedWords EMPTY = new SuggestedWords( EMPTY_WORD_INFO_LIST, null /* rawSuggestions */, null /* typedWord */, false /* typedWordValid */, false /* willAutoCorrect */, false /* isObsoleteSuggestions */, INPUT_STYLE_NONE, NOT_A_SEQUENCE_NUMBER); @Nullable public final SuggestedWordInfo mTypedWordInfo; public final boolean mTypedWordValid; // Note: this INCLUDES cases where the word will auto-correct to itself. A good definition // of what this flag means would be "the top suggestion is strong enough to auto-correct", // whether this exactly matches the user entry or not. public final boolean mWillAutoCorrect; public final boolean mIsObsoleteSuggestions; // How the input for these suggested words was done by the user. Must be one of the // INPUT_STYLE_* constants above. public final int mInputStyle; public final int mSequenceNumber; // Sequence number for auto-commit. @Nonnull protected final ArrayList mSuggestedWordInfoList; @Nullable public final ArrayList mRawSuggestions; public SuggestedWords(@Nonnull final ArrayList suggestedWordInfoList, @Nullable final ArrayList rawSuggestions, @Nullable final SuggestedWordInfo typedWordInfo, final boolean typedWordValid, final boolean willAutoCorrect, final boolean isObsoleteSuggestions, final int inputStyle, final int sequenceNumber) { mSuggestedWordInfoList = suggestedWordInfoList; mRawSuggestions = rawSuggestions; mTypedWordValid = typedWordValid; mWillAutoCorrect = willAutoCorrect; mIsObsoleteSuggestions = isObsoleteSuggestions; mInputStyle = inputStyle; mSequenceNumber = sequenceNumber; mTypedWordInfo = typedWordInfo; } public boolean isEmpty() { return mSuggestedWordInfoList.isEmpty(); } public int size() { return mSuggestedWordInfoList.size(); } /** * Get suggested word to show as suggestions to UI. * * @param shouldShowLxxSuggestionUi true if showing suggestion UI introduced in LXX and later. * @return the count of suggested word to show as suggestions to UI. */ public int getWordCountToShow(final boolean shouldShowLxxSuggestionUi) { if (isPrediction() || !shouldShowLxxSuggestionUi) { return size(); } return size() - /* typed word */ 1; } /** * Get {@link SuggestedWordInfo} object for the typed word. * @return The {@link SuggestedWordInfo} object for the typed word. */ public SuggestedWordInfo getTypedWordInfo() { return mTypedWordInfo; } /** * Get suggested word at index. * @param index The index of the suggested word. * @return The suggested word. */ public String getWord(final int index) { return mSuggestedWordInfoList.get(index).mWord; } /** * Get displayed text at index. * In RTL languages, the displayed text on the suggestion strip may be different from the * suggested word that is returned from {@link #getWord(int)}. For example the displayed text * of punctuation suggestion "(" should be ")". * @param index The index of the text to display. * @return The text to be displayed. */ public String getLabel(final int index) { return mSuggestedWordInfoList.get(index).mWord; } /** * Get {@link SuggestedWordInfo} object at index. * @param index The index of the {@link SuggestedWordInfo}. * @return The {@link SuggestedWordInfo} object. */ public SuggestedWordInfo getInfo(final int index) { return mSuggestedWordInfoList.get(index); } /** * Gets the suggestion index from the suggestions list. * @param suggestedWordInfo The {@link SuggestedWordInfo} to find the index. * @return The position of the suggestion in the suggestion list. */ public int indexOf(SuggestedWordInfo suggestedWordInfo) { return mSuggestedWordInfoList.indexOf(suggestedWordInfo); } public String getDebugString(final int pos) { if (!DebugFlags.DEBUG_ENABLED) { return null; } final SuggestedWordInfo wordInfo = getInfo(pos); if (wordInfo == null) { return null; } final String debugString = wordInfo.getDebugString(); if (TextUtils.isEmpty(debugString)) { return null; } return debugString; } /** * The predicator to tell whether this object represents punctuation suggestions. * @return false if this object desn't represent punctuation suggestions. */ public boolean isPunctuationSuggestions() { return false; } @Override public String toString() { // Pretty-print method to help debug return "SuggestedWords:" + " mTypedWordValid=" + mTypedWordValid + " mWillAutoCorrect=" + mWillAutoCorrect + " mInputStyle=" + mInputStyle + " words=" + Arrays.toString(mSuggestedWordInfoList.toArray()); } public static ArrayList getFromApplicationSpecifiedCompletions( final CompletionInfo[] infos) { final ArrayList result = new ArrayList<>(); for (final CompletionInfo info : infos) { if (null == info || null == info.getText()) { continue; } result.add(new SuggestedWordInfo(info)); } return result; } @Nonnull public static final SuggestedWords getEmptyInstance() { return SuggestedWords.EMPTY; } // Should get rid of the first one (what the user typed previously) from suggestions // and replace it with what the user currently typed. public static ArrayList getTypedWordAndPreviousSuggestions( @Nonnull final SuggestedWordInfo typedWordInfo, @Nonnull final SuggestedWords previousSuggestions) { final ArrayList suggestionsList = new ArrayList<>(); final HashSet alreadySeen = new HashSet<>(); suggestionsList.add(typedWordInfo); alreadySeen.add(typedWordInfo.mWord); final int previousSize = previousSuggestions.size(); for (int index = 1; index < previousSize; index++) { final SuggestedWordInfo prevWordInfo = previousSuggestions.getInfo(index); final String prevWord = prevWordInfo.mWord; // Filter out duplicate suggestions. if (!alreadySeen.contains(prevWord)) { suggestionsList.add(prevWordInfo); alreadySeen.add(prevWord); } } return suggestionsList; } public SuggestedWordInfo getAutoCommitCandidate() { if (mSuggestedWordInfoList.size() <= 0) return null; final SuggestedWordInfo candidate = mSuggestedWordInfoList.get(0); return candidate.isEligibleForAutoCommit() ? candidate : null; } // non-final for testability. public static class SuggestedWordInfo { public static final int NOT_AN_INDEX = -1; public static final int NOT_A_CONFIDENCE = -1; public static final int MAX_SCORE = Integer.MAX_VALUE; private static final int KIND_MASK_KIND = 0xFF; // Mask to get only the kind public static final int KIND_TYPED = 0; // What user typed public static final int KIND_CORRECTION = 1; // Simple correction/suggestion public static final int KIND_COMPLETION = 2; // Completion (suggestion with appended chars) public static final int KIND_WHITELIST = 3; // Whitelisted word public static final int KIND_BLACKLIST = 4; // Blacklisted word public static final int KIND_HARDCODED = 5; // Hardcoded suggestion, e.g. punctuation public static final int KIND_APP_DEFINED = 6; // Suggested by the application public static final int KIND_SHORTCUT = 7; // A shortcut public static final int KIND_PREDICTION = 8; // A prediction (== a suggestion with no input) // KIND_RESUMED: A resumed suggestion (comes from a span, currently this type is used only // in java for re-correction) public static final int KIND_RESUMED = 9; public static final int KIND_OOV_CORRECTION = 10; // Most probable string correction public static final int KIND_FLAG_POSSIBLY_OFFENSIVE = 0x80000000; public static final int KIND_FLAG_EXACT_MATCH = 0x40000000; public static final int KIND_FLAG_EXACT_MATCH_WITH_INTENTIONAL_OMISSION = 0x20000000; public static final int KIND_FLAG_APPROPRIATE_FOR_AUTO_CORRECTION = 0x10000000; public final String mWord; // The completion info from the application. Null for suggestions that don't come from // the application (including keyboard-computed ones, so this is almost always null) public final CompletionInfo mApplicationSpecifiedCompletionInfo; public final int mScore; public final int mKindAndFlags; public final int mCodePointCount; public final Dictionary mSourceDict; // For auto-commit. This keeps track of the index inside the touch coordinates array // passed to native code to get suggestions for a gesture that corresponds to the first // letter of the second word. public final int mIndexOfTouchPointOfSecondWord; // For auto-commit. This is a measure of how confident we are that we can commit the // first word of this suggestion. public final int mAutoCommitFirstWordConfidence; private String mDebugString = ""; /** * Create a new suggested word info. * @param word The string to suggest. * @param score A measure of how likely this suggestion is. * @param kindAndFlags The kind of suggestion, as one of the above KIND_* constants with * flags. * @param sourceDict What instance of Dictionary produced this suggestion. * @param indexOfTouchPointOfSecondWord See mIndexOfTouchPointOfSecondWord. * @param autoCommitFirstWordConfidence See mAutoCommitFirstWordConfidence. */ public SuggestedWordInfo(final String word, final int score, final int kindAndFlags, final Dictionary sourceDict, final int indexOfTouchPointOfSecondWord, final int autoCommitFirstWordConfidence) { mWord = word; mApplicationSpecifiedCompletionInfo = null; mScore = score; mKindAndFlags = kindAndFlags; mSourceDict = sourceDict; mCodePointCount = StringUtils.codePointCount(mWord); mIndexOfTouchPointOfSecondWord = indexOfTouchPointOfSecondWord; mAutoCommitFirstWordConfidence = autoCommitFirstWordConfidence; } /** * Create a new suggested word info from an application-specified completion. * If the passed argument or its contained text is null, this throws a NPE. * @param applicationSpecifiedCompletion The application-specified completion info. */ public SuggestedWordInfo(final CompletionInfo applicationSpecifiedCompletion) { mWord = applicationSpecifiedCompletion.getText().toString(); mApplicationSpecifiedCompletionInfo = applicationSpecifiedCompletion; mScore = SuggestedWordInfo.MAX_SCORE; mKindAndFlags = SuggestedWordInfo.KIND_APP_DEFINED; mSourceDict = Dictionary.DICTIONARY_APPLICATION_DEFINED; mCodePointCount = StringUtils.codePointCount(mWord); mIndexOfTouchPointOfSecondWord = SuggestedWordInfo.NOT_AN_INDEX; mAutoCommitFirstWordConfidence = SuggestedWordInfo.NOT_A_CONFIDENCE; } public boolean isEligibleForAutoCommit() { return (isKindOf(KIND_CORRECTION) && NOT_AN_INDEX != mIndexOfTouchPointOfSecondWord); } public int getKind() { return (mKindAndFlags & KIND_MASK_KIND); } public boolean isKindOf(final int kind) { return getKind() == kind; } public boolean isPossiblyOffensive() { return (mKindAndFlags & KIND_FLAG_POSSIBLY_OFFENSIVE) != 0; } public boolean isExactMatch() { return (mKindAndFlags & KIND_FLAG_EXACT_MATCH) != 0; } public boolean isExactMatchWithIntentionalOmission() { return (mKindAndFlags & KIND_FLAG_EXACT_MATCH_WITH_INTENTIONAL_OMISSION) != 0; } public boolean isAprapreateForAutoCorrection() { return (mKindAndFlags & KIND_FLAG_APPROPRIATE_FOR_AUTO_CORRECTION) != 0; } public void setDebugString(final String str) { if (null == str) throw new NullPointerException("Debug info is null"); mDebugString = str; } public String getDebugString() { return mDebugString; } public String getWord() { return mWord; } public Dictionary getSourceDictionary() { return mSourceDict; } public int codePointAt(int i) { return mWord.codePointAt(i); } @Override public String toString() { if (TextUtils.isEmpty(mDebugString)) { return mWord; } return mWord + " (" + mDebugString + ")"; } /** * This will always remove the higher index if a duplicate is found. * * @return position of typed word in the candidate list */ public static int removeDups( @Nullable final String typedWord, @Nonnull final ArrayList candidates) { if (candidates.isEmpty()) { return -1; } int firstOccurrenceOfWord = -1; if (!TextUtils.isEmpty(typedWord)) { firstOccurrenceOfWord = removeSuggestedWordInfoFromList( typedWord, candidates, -1 /* startIndexExclusive */); } for (int i = 0; i < candidates.size(); ++i) { removeSuggestedWordInfoFromList( candidates.get(i).mWord, candidates, i /* startIndexExclusive */); } return firstOccurrenceOfWord; } private static int removeSuggestedWordInfoFromList( @Nonnull final String word, @Nonnull final ArrayList candidates, final int startIndexExclusive) { int firstOccurrenceOfWord = -1; for (int i = startIndexExclusive + 1; i < candidates.size(); ++i) { final SuggestedWordInfo previous = candidates.get(i); if (word.equals(previous.mWord)) { if (firstOccurrenceOfWord == -1) { firstOccurrenceOfWord = i; } candidates.remove(i); --i; } } return firstOccurrenceOfWord; } } private static boolean isPrediction(final int inputStyle) { return INPUT_STYLE_PREDICTION == inputStyle || INPUT_STYLE_BEGINNING_OF_SENTENCE_PREDICTION == inputStyle; } public boolean isPrediction() { return isPrediction(mInputStyle); } // Creates a new SuggestedWordInfo from the currently suggested words that removes all but the // last word of all suggestions, separated by a space. This is necessary because when we commit // a multiple-word suggestion, the IME only retains the last word as the composing word, and // we should only suggest replacements for this last word. // TODO: make this work with languages without spaces. public SuggestedWords getSuggestedWordsForLastWordOfPhraseGesture() { final ArrayList newSuggestions = new ArrayList<>(); for (int i = 0; i < mSuggestedWordInfoList.size(); ++i) { final SuggestedWordInfo info = mSuggestedWordInfoList.get(i); final int indexOfLastSpace = info.mWord.lastIndexOf(Constants.CODE_SPACE) + 1; final String lastWord = info.mWord.substring(indexOfLastSpace); newSuggestions.add(new SuggestedWordInfo(lastWord, info.mScore, info.mKindAndFlags, info.mSourceDict, SuggestedWordInfo.NOT_AN_INDEX, SuggestedWordInfo.NOT_A_CONFIDENCE)); } return new SuggestedWords(newSuggestions, null /* rawSuggestions */, newSuggestions.isEmpty() ? null : newSuggestions.get(0) /* typedWordInfo */, mTypedWordValid, mWillAutoCorrect, mIsObsoleteSuggestions, INPUT_STYLE_TAIL_BATCH, NOT_A_SEQUENCE_NUMBER); } /** * @return the {@link SuggestedWordInfo} which corresponds to the word that is originally * typed by the user. Otherwise returns {@code null}. Note that gesture input is not * considered to be a typed word. */ @UsedForTesting public SuggestedWordInfo getTypedWordInfoOrNull() { if (SuggestedWords.INDEX_OF_TYPED_WORD >= size()) { return null; } final SuggestedWordInfo info = getInfo(SuggestedWords.INDEX_OF_TYPED_WORD); return (info.getKind() == SuggestedWordInfo.KIND_TYPED) ? info : null; } }