/* * 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 com.android.inputmethod.latin.LatinIMEUtil.RingCharBuffer; import com.android.inputmethod.voice.FieldContext; import com.android.inputmethod.voice.SettingsUtil; import com.android.inputmethod.voice.VoiceInput; import org.xmlpull.v1.XmlPullParserException; import android.app.AlertDialog; import android.content.BroadcastReceiver; import android.content.Context; import android.content.DialogInterface; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.content.res.Configuration; import android.content.res.Resources; import android.content.res.XmlResourceParser; import android.inputmethodservice.InputMethodService; import android.media.AudioManager; import android.os.Debug; import android.os.Handler; import android.os.Message; import android.os.SystemClock; import android.os.Vibrator; import android.preference.PreferenceActivity; import android.preference.PreferenceManager; import android.speech.SpeechRecognizer; import android.text.ClipboardManager; import android.text.TextUtils; import android.util.DisplayMetrics; import android.util.Log; import android.util.PrintWriterPrinter; import android.util.Printer; import android.view.HapticFeedbackConstants; import android.view.KeyEvent; import android.view.LayoutInflater; import android.view.View; import android.view.ViewGroup; import android.view.ViewParent; import android.view.Window; import android.view.WindowManager; import android.view.inputmethod.CompletionInfo; import android.view.inputmethod.EditorInfo; import android.view.inputmethod.ExtractedText; import android.view.inputmethod.ExtractedTextRequest; import android.view.inputmethod.InputConnection; import android.view.inputmethod.InputMethodManager; import android.widget.LinearLayout; import java.io.FileDescriptor; import java.io.IOException; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Locale; import java.util.Map; /** * Input method implementation for Qwerty'ish keyboard. */ public class LatinIME extends InputMethodService implements BaseKeyboardView.OnKeyboardActionListener, VoiceInput.UiListener, SharedPreferences.OnSharedPreferenceChangeListener { private static final String TAG = "LatinIME"; private static final boolean PERF_DEBUG = false; static final boolean DEBUG = false; static final boolean TRACE = false; static final boolean VOICE_INSTALLED = true; static final boolean ENABLE_VOICE_BUTTON = true; private static final String PREF_SOUND_ON = "sound_on"; private static final String PREF_POPUP_ON = "popup_on"; private static final String PREF_AUTO_CAP = "auto_cap"; private static final String PREF_QUICK_FIXES = "quick_fixes"; private static final String PREF_SHOW_SUGGESTIONS = "show_suggestions"; private static final String PREF_AUTO_COMPLETION_THRESHOLD = "auto_completion_threshold"; private static final String PREF_BIGRAM_SUGGESTIONS = "bigram_suggestion"; private static final String PREF_VOICE_MODE = "voice_mode"; // Whether or not the user has used voice input before (and thus, whether to show the // first-run warning dialog or not). private static final String PREF_HAS_USED_VOICE_INPUT = "has_used_voice_input"; // Whether or not the user has used voice input from an unsupported locale UI before. // For example, the user has a Chinese UI but activates voice input. private static final String PREF_HAS_USED_VOICE_INPUT_UNSUPPORTED_LOCALE = "has_used_voice_input_unsupported_locale"; // A list of locales which are supported by default for voice input, unless we get a // different list from Gservices. public static final String DEFAULT_VOICE_INPUT_SUPPORTED_LOCALES = "en " + "en_US " + "en_GB " + "en_AU " + "en_CA " + "en_IE " + "en_IN " + "en_NZ " + "en_SG " + "en_ZA "; // The private IME option used to indicate that no microphone should be shown for a // given text field. For instance this is specified by the search dialog when the // dialog is already showing a voice search button. private static final String IME_OPTION_NO_MICROPHONE = "nm"; public static final String PREF_SELECTED_LANGUAGES = "selected_languages"; public static final String PREF_INPUT_LANGUAGE = "input_language"; private static final String PREF_RECORRECTION_ENABLED = "recorrection_enabled"; private static final int MSG_UPDATE_SUGGESTIONS = 0; private static final int MSG_START_TUTORIAL = 1; private static final int MSG_UPDATE_SHIFT_STATE = 2; private static final int MSG_VOICE_RESULTS = 3; private static final int MSG_UPDATE_OLD_SUGGESTIONS = 4; private static final int DELAY_UPDATE_SUGGESTIONS = 180; private static final int DELAY_UPDATE_OLD_SUGGESTIONS = 300; // How many continuous deletes at which to start deleting at a higher speed. private static final int DELETE_ACCELERATE_AT = 20; // Key events coming any faster than this are long-presses. private static final int QUICK_PRESS = 200; public static final int KEYCODE_ENTER = '\n'; public static final int KEYCODE_TAB = '\t'; public static final int KEYCODE_SPACE = ' '; public static final int KEYCODE_PERIOD = '.'; // Contextual menu positions private static final int POS_METHOD = 0; private static final int POS_SETTINGS = 1; private LinearLayout mCandidateViewContainer; private CandidateView mCandidateView; private Suggest mSuggest; private CompletionInfo[] mCompletions; private AlertDialog mOptionsDialog; private AlertDialog mVoiceWarningDialog; /* package */ KeyboardSwitcher mKeyboardSwitcher; private UserDictionary mUserDictionary; private UserBigramDictionary mUserBigramDictionary; private ContactsDictionary mContactsDictionary; private AutoDictionary mAutoDictionary; private Hints mHints; private Resources mResources; private String mInputLocale; private String mSystemLocale; private LanguageSwitcher mLanguageSwitcher; private StringBuilder mComposing = new StringBuilder(); private WordComposer mWord = new WordComposer(); private int mCommittedLength; private boolean mPredicting; private boolean mRecognizing; private boolean mAfterVoiceInput; private boolean mImmediatelyAfterVoiceInput; private boolean mShowingVoiceSuggestions; private boolean mVoiceInputHighlighted; private CharSequence mBestWord; private boolean mPredictionOn; private boolean mCompletionOn; private boolean mHasDictionary; private boolean mAutoSpace; private boolean mJustAddedAutoSpace; private boolean mAutoCorrectEnabled; private boolean mReCorrectionEnabled; private boolean mBigramSuggestionEnabled; private boolean mAutoCorrectOn; private boolean mPasswordText; private boolean mVibrateOn; private boolean mSoundOn; private boolean mPopupOn; private boolean mAutoCap; private boolean mQuickFixes; private boolean mHasUsedVoiceInput; private boolean mHasUsedVoiceInputUnsupportedLocale; private boolean mLocaleSupportedForVoiceInput; private boolean mShowSuggestions; private boolean mIsShowingHint; private int mCorrectionMode; private boolean mVoiceButtonEnabled; private boolean mVoiceButtonOnPrimary; private int mOrientation; private List mSuggestPuncList; // Keep track of the last selection range to decide if we need to show word alternatives private int mLastSelectionStart; private int mLastSelectionEnd; // Input type is such that we should not auto-correct private boolean mInputTypeNoAutoCorrect; // Indicates whether the suggestion strip is to be on in landscape private boolean mJustAccepted; private CharSequence mJustRevertedSeparator; private int mDeleteCount; private long mLastKeyTime; // Modifier keys state private ModifierKeyState mShiftKeyState = new ModifierKeyState(); private ModifierKeyState mSymbolKeyState = new ModifierKeyState(); private Tutorial mTutorial; private AudioManager mAudioManager; // Align sound effect volume on music volume private final float FX_VOLUME = -1.0f; private boolean mSilentMode; /* package */ String mWordSeparators; private String mSentenceSeparators; private String mSuggestPuncs; private VoiceInput mVoiceInput; private VoiceResults mVoiceResults = new VoiceResults(); private boolean mConfigurationChanging; // Keeps track of most recently inserted text (multi-character key) for reverting private CharSequence mEnteredText; private boolean mRefreshKeyboardRequired; // For each word, a list of potential replacements, usually from voice. private Map> mWordToSuggestions = new HashMap>(); private ArrayList mWordHistory = new ArrayList(); private class VoiceResults { List candidates; Map> alternatives; } public abstract static class WordAlternatives { protected CharSequence mChosenWord; public WordAlternatives() { // Nothing } public WordAlternatives(CharSequence chosenWord) { mChosenWord = chosenWord; } @Override public int hashCode() { return mChosenWord.hashCode(); } public abstract CharSequence getOriginalWord(); public CharSequence getChosenWord() { return mChosenWord; } public abstract List getAlternatives(); } public class TypedWordAlternatives extends WordAlternatives { private WordComposer word; public TypedWordAlternatives() { // Nothing } public TypedWordAlternatives(CharSequence chosenWord, WordComposer wordComposer) { super(chosenWord); word = wordComposer; } @Override public CharSequence getOriginalWord() { return word.getTypedWord(); } @Override public List getAlternatives() { return getTypedSuggestions(word); } } /* package */ Handler mHandler = new Handler() { @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_UPDATE_SUGGESTIONS: updateSuggestions(); break; case MSG_UPDATE_OLD_SUGGESTIONS: setOldSuggestions(); break; case MSG_START_TUTORIAL: if (mTutorial == null) { if (mKeyboardSwitcher.getInputView().isShown()) { mTutorial = new Tutorial( LatinIME.this, mKeyboardSwitcher.getInputView()); mTutorial.start(); } else { // Try again soon if the view is not yet showing sendMessageDelayed(obtainMessage(MSG_START_TUTORIAL), 100); } } break; case MSG_UPDATE_SHIFT_STATE: updateShiftKeyState(getCurrentInputEditorInfo()); break; case MSG_VOICE_RESULTS: handleVoiceResults(); break; } } }; @Override public void onCreate() { LatinImeLogger.init(this); super.onCreate(); //setStatusIcon(R.drawable.ime_qwerty); mResources = getResources(); final Configuration conf = mResources.getConfiguration(); final SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(this); mLanguageSwitcher = new LanguageSwitcher(this); mLanguageSwitcher.loadLocales(prefs); mKeyboardSwitcher = new KeyboardSwitcher(this, mLanguageSwitcher); mSystemLocale = conf.locale.toString(); mLanguageSwitcher.setSystemLocale(conf.locale); String inputLanguage = mLanguageSwitcher.getInputLanguage(); if (inputLanguage == null) { inputLanguage = conf.locale.toString(); } mReCorrectionEnabled = prefs.getBoolean(PREF_RECORRECTION_ENABLED, getResources().getBoolean(R.bool.default_recorrection_enabled)); LatinIMEUtil.GCUtils.getInstance().reset(); boolean tryGC = true; for (int i = 0; i < LatinIMEUtil.GCUtils.GC_TRY_LOOP_MAX && tryGC; ++i) { try { initSuggest(inputLanguage); tryGC = false; } catch (OutOfMemoryError e) { tryGC = LatinIMEUtil.GCUtils.getInstance().tryGCOrWait(inputLanguage, e); } } mOrientation = conf.orientation; initSuggestPuncList(); // register to receive ringer mode changes for silent mode IntentFilter filter = new IntentFilter(AudioManager.RINGER_MODE_CHANGED_ACTION); registerReceiver(mReceiver, filter); if (VOICE_INSTALLED) { mVoiceInput = new VoiceInput(this, this); mHints = new Hints(this, new Hints.Display() { public void showHint(int viewResource) { LayoutInflater inflater = (LayoutInflater) getSystemService( Context.LAYOUT_INFLATER_SERVICE); View view = inflater.inflate(viewResource, null); setCandidatesView(view); setCandidatesViewShown(true); mIsShowingHint = true; } }); } prefs.registerOnSharedPreferenceChangeListener(this); } /** * Loads a dictionary or multiple separated dictionary * @return returns array of dictionary resource ids */ /* package */ static int[] getDictionary(Resources res) { String packageName = LatinIME.class.getPackage().getName(); XmlResourceParser xrp = res.getXml(R.xml.dictionary); ArrayList dictionaries = new ArrayList(); try { int current = xrp.getEventType(); while (current != XmlResourceParser.END_DOCUMENT) { if (current == XmlResourceParser.START_TAG) { String tag = xrp.getName(); if (tag != null) { if (tag.equals("part")) { String dictFileName = xrp.getAttributeValue(null, "name"); dictionaries.add(res.getIdentifier(dictFileName, "raw", packageName)); } } } xrp.next(); current = xrp.getEventType(); } } catch (XmlPullParserException e) { Log.e(TAG, "Dictionary XML parsing failure"); } catch (IOException e) { Log.e(TAG, "Dictionary XML IOException"); } int count = dictionaries.size(); int[] dict = new int[count]; for (int i = 0; i < count; i++) { dict[i] = dictionaries.get(i); } return dict; } private void initSuggest(String locale) { mInputLocale = locale; Resources orig = getResources(); Configuration conf = orig.getConfiguration(); Locale saveLocale = conf.locale; conf.locale = new Locale(locale); orig.updateConfiguration(conf, orig.getDisplayMetrics()); if (mSuggest != null) { mSuggest.close(); } SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(this); mQuickFixes = sp.getBoolean(PREF_QUICK_FIXES, true); int[] dictionaries = getDictionary(orig); mSuggest = new Suggest(this, dictionaries); loadAndSetAutoCompletionThreshold(sp); updateAutoTextEnabled(saveLocale); if (mUserDictionary != null) mUserDictionary.close(); mUserDictionary = new UserDictionary(this, mInputLocale); if (mContactsDictionary == null) { mContactsDictionary = new ContactsDictionary(this, Suggest.DIC_CONTACTS); } if (mAutoDictionary != null) { mAutoDictionary.close(); } mAutoDictionary = new AutoDictionary(this, this, mInputLocale, Suggest.DIC_AUTO); if (mUserBigramDictionary != null) { mUserBigramDictionary.close(); } mUserBigramDictionary = new UserBigramDictionary(this, this, mInputLocale, Suggest.DIC_USER); mSuggest.setUserBigramDictionary(mUserBigramDictionary); mSuggest.setUserDictionary(mUserDictionary); mSuggest.setContactsDictionary(mContactsDictionary); mSuggest.setAutoDictionary(mAutoDictionary); updateCorrectionMode(); mWordSeparators = mResources.getString(R.string.word_separators); mSentenceSeparators = mResources.getString(R.string.sentence_separators); conf.locale = saveLocale; orig.updateConfiguration(conf, orig.getDisplayMetrics()); } @Override public void onDestroy() { if (mUserDictionary != null) { mUserDictionary.close(); } if (mContactsDictionary != null) { mContactsDictionary.close(); } unregisterReceiver(mReceiver); if (VOICE_INSTALLED && mVoiceInput != null) { mVoiceInput.destroy(); } LatinImeLogger.commit(); LatinImeLogger.onDestroy(); super.onDestroy(); } @Override public void onConfigurationChanged(Configuration conf) { // If the system locale changes and is different from the saved // locale (mSystemLocale), then reload the input locale list from the // latin ime settings (shared prefs) and reset the input locale // to the first one. final String systemLocale = conf.locale.toString(); if (!TextUtils.equals(systemLocale, mSystemLocale)) { mSystemLocale = systemLocale; mLanguageSwitcher.loadLocales( PreferenceManager.getDefaultSharedPreferences(this)); mLanguageSwitcher.setSystemLocale(conf.locale); toggleLanguage(true, true); } // If orientation changed while predicting, commit the change if (conf.orientation != mOrientation) { InputConnection ic = getCurrentInputConnection(); commitTyped(ic); if (ic != null) ic.finishComposingText(); // For voice input mOrientation = conf.orientation; final int mode = mKeyboardSwitcher.getKeyboardMode(); final EditorInfo attribute = getCurrentInputEditorInfo(); mKeyboardSwitcher.loadKeyboard(mode, attribute.imeOptions, mVoiceButtonEnabled, mVoiceButtonOnPrimary); } mConfigurationChanging = true; super.onConfigurationChanged(conf); if (mRecognizing) { switchToRecognitionStatusView(); } mConfigurationChanging = false; } @Override public View onCreateInputView() { mKeyboardSwitcher.loadKeyboardView(); return mKeyboardSwitcher.getInputView(); } @Override public View onCreateCandidatesView() { mCandidateViewContainer = (LinearLayout) getLayoutInflater().inflate( R.layout.candidates, null); mCandidateView = (CandidateView) mCandidateViewContainer.findViewById(R.id.candidates); mCandidateView.setService(this); setCandidatesViewShown(true); return mCandidateViewContainer; } private static boolean isPasswordVariation(int variation) { return variation == EditorInfo.TYPE_TEXT_VARIATION_PASSWORD || variation == EditorInfo.TYPE_TEXT_VARIATION_VISIBLE_PASSWORD || variation == EditorInfo.TYPE_TEXT_VARIATION_WEB_PASSWORD; } private static boolean isEmailVariation(int variation) { return variation == EditorInfo.TYPE_TEXT_VARIATION_EMAIL_ADDRESS || variation == EditorInfo.TYPE_TEXT_VARIATION_WEB_EMAIL_ADDRESS; } @Override public void onStartInputView(EditorInfo attribute, boolean restarting) { LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); // In landscape mode, this method gets called without the input view being created. if (inputView == null) { return; } if (mRefreshKeyboardRequired) { mRefreshKeyboardRequired = false; toggleLanguage(true, true); } TextEntryState.newSession(this); // Most such things we decide below in the switch statement, but we need to know // now whether this is a password text field, because we need to know now (before // the switch statement) whether we want to enable the voice button. mPasswordText = false; int variation = attribute.inputType & EditorInfo.TYPE_MASK_VARIATION; if (isPasswordVariation(variation)) { mPasswordText = true; } mAfterVoiceInput = false; mImmediatelyAfterVoiceInput = false; mShowingVoiceSuggestions = false; mVoiceInputHighlighted = false; mInputTypeNoAutoCorrect = false; mPredictionOn = false; mCompletionOn = false; mCompletions = null; mEnteredText = null; final int mode; switch (attribute.inputType & EditorInfo.TYPE_MASK_CLASS) { case EditorInfo.TYPE_CLASS_NUMBER: case EditorInfo.TYPE_CLASS_DATETIME: // fall through // NOTE: For now, we use the phone keyboard for NUMBER and DATETIME until we get // a dedicated number entry keypad. // TODO: Use a dedicated number entry keypad here when we get one. case EditorInfo.TYPE_CLASS_PHONE: mode = KeyboardSwitcher.MODE_PHONE; break; case EditorInfo.TYPE_CLASS_TEXT: //startPrediction(); mPredictionOn = true; // Make sure that passwords are not displayed in candidate view if (isPasswordVariation(variation)) { mPredictionOn = false; } if (isEmailVariation(variation) || variation == EditorInfo.TYPE_TEXT_VARIATION_PERSON_NAME) { mAutoSpace = false; } else { mAutoSpace = true; } if (isEmailVariation(variation)) { mPredictionOn = false; mode = KeyboardSwitcher.MODE_EMAIL; } else if (variation == EditorInfo.TYPE_TEXT_VARIATION_URI) { mPredictionOn = false; mode = KeyboardSwitcher.MODE_URL; } else if (variation == EditorInfo.TYPE_TEXT_VARIATION_SHORT_MESSAGE) { mode = KeyboardSwitcher.MODE_IM; } else if (variation == EditorInfo.TYPE_TEXT_VARIATION_FILTER) { mPredictionOn = false; mode = KeyboardSwitcher.MODE_TEXT; } else if (variation == EditorInfo.TYPE_TEXT_VARIATION_WEB_EDIT_TEXT) { mode = KeyboardSwitcher.MODE_WEB; // If it's a browser edit field and auto correct is not ON explicitly, then // disable auto correction, but keep suggestions on. if ((attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_AUTO_CORRECT) == 0) { mInputTypeNoAutoCorrect = true; } } else { mode = KeyboardSwitcher.MODE_TEXT; } // If NO_SUGGESTIONS is set, don't do prediction. if ((attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_NO_SUGGESTIONS) != 0) { mPredictionOn = false; mInputTypeNoAutoCorrect = true; } // If it's not multiline and the autoCorrect flag is not set, then don't correct if ((attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_AUTO_CORRECT) == 0 && (attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_MULTI_LINE) == 0) { mInputTypeNoAutoCorrect = true; } if ((attribute.inputType & EditorInfo.TYPE_TEXT_FLAG_AUTO_COMPLETE) != 0) { mPredictionOn = false; mCompletionOn = isFullscreenMode(); } break; default: mode = KeyboardSwitcher.MODE_TEXT; break; } inputView.closing(); mComposing.setLength(0); mPredicting = false; mDeleteCount = 0; mJustAddedAutoSpace = false; loadSettings(attribute); mKeyboardSwitcher.loadKeyboard(mode, attribute.imeOptions, mVoiceButtonEnabled, mVoiceButtonOnPrimary); updateShiftKeyState(attribute); setCandidatesViewShownInternal(isCandidateStripVisible(), false /* needsInputViewShown */ ); updateSuggestions(); // If the dictionary is not big enough, don't auto correct mHasDictionary = mSuggest.hasMainDictionary(); updateCorrectionMode(); inputView.setPreviewEnabled(mPopupOn); inputView.setProximityCorrectionEnabled(true); mPredictionOn = mPredictionOn && (mCorrectionMode > 0 || mShowSuggestions); // If we just entered a text field, maybe it has some old text that requires correction checkReCorrectionOnStart(); checkTutorial(attribute.privateImeOptions); inputView.setForeground(true); if (TRACE) Debug.startMethodTracing("/data/trace/latinime"); } private void checkReCorrectionOnStart() { if (mReCorrectionEnabled && isPredictionOn()) { // First get the cursor position. This is required by setOldSuggestions(), so that // it can pass the correct range to setComposingRegion(). At this point, we don't // have valid values for mLastSelectionStart/Stop because onUpdateSelection() has // not been called yet. InputConnection ic = getCurrentInputConnection(); if (ic == null) return; ExtractedTextRequest etr = new ExtractedTextRequest(); etr.token = 0; // anything is fine here ExtractedText et = ic.getExtractedText(etr, 0); if (et == null) return; mLastSelectionStart = et.startOffset + et.selectionStart; mLastSelectionEnd = et.startOffset + et.selectionEnd; // Then look for possible corrections in a delayed fashion if (!TextUtils.isEmpty(et.text) && isCursorTouchingWord()) { postUpdateOldSuggestions(); } } } @Override public void onFinishInput() { super.onFinishInput(); LatinImeLogger.commit(); onAutoCompletionStateChanged(false); if (VOICE_INSTALLED && !mConfigurationChanging) { if (mAfterVoiceInput) { mVoiceInput.flushAllTextModificationCounters(); mVoiceInput.logInputEnded(); } mVoiceInput.flushLogs(); mVoiceInput.cancel(); } if (mKeyboardSwitcher.getInputView() != null) { mKeyboardSwitcher.getInputView().closing(); } if (mAutoDictionary != null) mAutoDictionary.flushPendingWrites(); if (mUserBigramDictionary != null) mUserBigramDictionary.flushPendingWrites(); } @Override public void onFinishInputView(boolean finishingInput) { super.onFinishInputView(finishingInput); BaseKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView != null) inputView.setForeground(false); // Remove penging messages related to update suggestions mHandler.removeMessages(MSG_UPDATE_SUGGESTIONS); mHandler.removeMessages(MSG_UPDATE_OLD_SUGGESTIONS); } @Override public void onUpdateExtractedText(int token, ExtractedText text) { super.onUpdateExtractedText(token, text); InputConnection ic = getCurrentInputConnection(); if (!mImmediatelyAfterVoiceInput && mAfterVoiceInput && ic != null) { if (mHints.showPunctuationHintIfNecessary(ic)) { mVoiceInput.logPunctuationHintDisplayed(); } } mImmediatelyAfterVoiceInput = false; } @Override public void onUpdateSelection(int oldSelStart, int oldSelEnd, int newSelStart, int newSelEnd, int candidatesStart, int candidatesEnd) { super.onUpdateSelection(oldSelStart, oldSelEnd, newSelStart, newSelEnd, candidatesStart, candidatesEnd); if (DEBUG) { Log.i(TAG, "onUpdateSelection: oss=" + oldSelStart + ", ose=" + oldSelEnd + ", nss=" + newSelStart + ", nse=" + newSelEnd + ", cs=" + candidatesStart + ", ce=" + candidatesEnd); } if (mAfterVoiceInput) { mVoiceInput.setCursorPos(newSelEnd); mVoiceInput.setSelectionSpan(newSelEnd - newSelStart); } // If the current selection in the text view changes, we should // clear whatever candidate text we have. if ((((mComposing.length() > 0 && mPredicting) || mVoiceInputHighlighted) && (newSelStart != candidatesEnd || newSelEnd != candidatesEnd) && mLastSelectionStart != newSelStart)) { mComposing.setLength(0); mPredicting = false; postUpdateSuggestions(); TextEntryState.reset(); InputConnection ic = getCurrentInputConnection(); if (ic != null) { ic.finishComposingText(); } mVoiceInputHighlighted = false; } else if (!mPredicting && !mJustAccepted) { switch (TextEntryState.getState()) { case ACCEPTED_DEFAULT: TextEntryState.reset(); // fall through case SPACE_AFTER_PICKED: mJustAddedAutoSpace = false; // The user moved the cursor. break; } } mJustAccepted = false; postUpdateShiftKeyState(); // Make a note of the cursor position mLastSelectionStart = newSelStart; mLastSelectionEnd = newSelEnd; if (mReCorrectionEnabled) { // Don't look for corrections if the keyboard is not visible if (mKeyboardSwitcher != null && mKeyboardSwitcher.getInputView() != null && mKeyboardSwitcher.getInputView().isShown()) { // Check if we should go in or out of correction mode. if (isPredictionOn() && mJustRevertedSeparator == null && (candidatesStart == candidatesEnd || newSelStart != oldSelStart || TextEntryState.isCorrecting()) && (newSelStart < newSelEnd - 1 || (!mPredicting)) && !mVoiceInputHighlighted) { if (isCursorTouchingWord() || mLastSelectionStart < mLastSelectionEnd) { postUpdateOldSuggestions(); } else { abortCorrection(false); // Show the punctuation suggestions list if the current one is not // and if not showing "Touch again to save". if (mCandidateView != null && !mSuggestPuncList.equals(mCandidateView.getSuggestions()) && !mCandidateView.isShowingAddToDictionaryHint()) { setPunctuationSuggestions(); } } } } } } /** * This is called when the user has clicked on the extracted text view, * when running in fullscreen mode. The default implementation hides * the candidates view when this happens, but only if the extracted text * editor has a vertical scroll bar because its text doesn't fit. * Here we override the behavior due to the possibility that a re-correction could * cause the candidate strip to disappear and re-appear. */ @Override public void onExtractedTextClicked() { if (mReCorrectionEnabled && isPredictionOn()) return; super.onExtractedTextClicked(); } /** * This is called when the user has performed a cursor movement in the * extracted text view, when it is running in fullscreen mode. The default * implementation hides the candidates view when a vertical movement * happens, but only if the extracted text editor has a vertical scroll bar * because its text doesn't fit. * Here we override the behavior due to the possibility that a re-correction could * cause the candidate strip to disappear and re-appear. */ @Override public void onExtractedCursorMovement(int dx, int dy) { if (mReCorrectionEnabled && isPredictionOn()) return; super.onExtractedCursorMovement(dx, dy); } @Override public void hideWindow() { LatinImeLogger.commit(); onAutoCompletionStateChanged(false); if (TRACE) Debug.stopMethodTracing(); if (mOptionsDialog != null && mOptionsDialog.isShowing()) { mOptionsDialog.dismiss(); mOptionsDialog = null; } if (!mConfigurationChanging) { if (mAfterVoiceInput) mVoiceInput.logInputEnded(); if (mVoiceWarningDialog != null && mVoiceWarningDialog.isShowing()) { mVoiceInput.logKeyboardWarningDialogDismissed(); mVoiceWarningDialog.dismiss(); mVoiceWarningDialog = null; } if (VOICE_INSTALLED & mRecognizing) { mVoiceInput.cancel(); } } mWordToSuggestions.clear(); mWordHistory.clear(); super.hideWindow(); TextEntryState.endSession(); } @Override public void onDisplayCompletions(CompletionInfo[] completions) { if (DEBUG) { Log.i("foo", "Received completions:"); for (int i=0; i<(completions != null ? completions.length : 0); i++) { Log.i("foo", " #" + i + ": " + completions[i]); } } if (mCompletionOn) { mCompletions = completions; if (completions == null) { clearSuggestions(); return; } List stringList = new ArrayList(); for (int i=0; i<(completions != null ? completions.length : 0); i++) { CompletionInfo ci = completions[i]; if (ci != null) stringList.add(ci.getText()); } // When in fullscreen mode, show completions generated by the application setSuggestions(stringList, true, true, true); mBestWord = null; setCandidatesViewShown(true); } } private void setCandidatesViewShownInternal(boolean shown, boolean needsInputViewShown) { // TODO: Remove this if we support candidates with hard keyboard if (onEvaluateInputViewShown()) { super.setCandidatesViewShown(shown && mKeyboardSwitcher.getInputView() != null && (needsInputViewShown ? mKeyboardSwitcher.getInputView().isShown() : true)); } } @Override public void setCandidatesViewShown(boolean shown) { setCandidatesViewShownInternal(shown, true /* needsInputViewShown */ ); } @Override public void onComputeInsets(InputMethodService.Insets outInsets) { super.onComputeInsets(outInsets); if (!isFullscreenMode()) { outInsets.contentTopInsets = outInsets.visibleTopInsets; } } @Override public boolean onEvaluateFullscreenMode() { DisplayMetrics dm = getResources().getDisplayMetrics(); float displayHeight = dm.heightPixels; // If the display is more than X inches high, don't go to fullscreen mode float dimen = getResources().getDimension(R.dimen.max_height_for_fullscreen); if (displayHeight > dimen) { return false; } else { return super.onEvaluateFullscreenMode(); } } @Override public boolean onKeyDown(int keyCode, KeyEvent event) { switch (keyCode) { case KeyEvent.KEYCODE_BACK: if (event.getRepeatCount() == 0 && mKeyboardSwitcher.getInputView() != null) { if (mKeyboardSwitcher.getInputView().handleBack()) { return true; } else if (mTutorial != null) { mTutorial.close(); mTutorial = null; } } break; case KeyEvent.KEYCODE_DPAD_DOWN: case KeyEvent.KEYCODE_DPAD_UP: case KeyEvent.KEYCODE_DPAD_LEFT: case KeyEvent.KEYCODE_DPAD_RIGHT: // If tutorial is visible, don't allow dpad to work if (mTutorial != null) { return true; } break; } return super.onKeyDown(keyCode, event); } @Override public boolean onKeyUp(int keyCode, KeyEvent event) { switch (keyCode) { case KeyEvent.KEYCODE_DPAD_DOWN: case KeyEvent.KEYCODE_DPAD_UP: case KeyEvent.KEYCODE_DPAD_LEFT: case KeyEvent.KEYCODE_DPAD_RIGHT: // If tutorial is visible, don't allow dpad to work if (mTutorial != null) { return true; } LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) break; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) break; // Enable shift key and DPAD to do selections if (inputView.isShown() && latinKeyboard.isShifted()) { event = new KeyEvent(event.getDownTime(), event.getEventTime(), event.getAction(), event.getKeyCode(), event.getRepeatCount(), event.getDeviceId(), event.getScanCode(), KeyEvent.META_SHIFT_LEFT_ON | KeyEvent.META_SHIFT_ON); InputConnection ic = getCurrentInputConnection(); if (ic != null) ic.sendKeyEvent(event); return true; } break; } return super.onKeyUp(keyCode, event); } private void revertVoiceInput() { InputConnection ic = getCurrentInputConnection(); if (ic != null) ic.commitText("", 1); updateSuggestions(); mVoiceInputHighlighted = false; } private void commitVoiceInput() { InputConnection ic = getCurrentInputConnection(); if (ic != null) ic.finishComposingText(); updateSuggestions(); mVoiceInputHighlighted = false; } private void commitTyped(InputConnection inputConnection) { if (mPredicting) { mPredicting = false; if (mComposing.length() > 0) { if (inputConnection != null) { inputConnection.commitText(mComposing, 1); } mCommittedLength = mComposing.length(); TextEntryState.acceptedTyped(mComposing); addToDictionaries(mComposing, AutoDictionary.FREQUENCY_FOR_TYPED); } updateSuggestions(); } } private void postUpdateShiftKeyState() { mHandler.removeMessages(MSG_UPDATE_SHIFT_STATE); // TODO: Should remove this 300ms delay? mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_UPDATE_SHIFT_STATE), 300); } public void updateShiftKeyState(EditorInfo attr) { InputConnection ic = getCurrentInputConnection(); LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; if (ic != null && attr != null && mKeyboardSwitcher.isAlphabetMode() && !mShiftKeyState.isIgnoring()) { mKeyboardSwitcher.setShifted(mShiftKeyState.isMomentary() || latinKeyboard.isShiftLocked() || getCursorCapsMode(ic, attr) != 0); } } private int getCursorCapsMode(InputConnection ic, EditorInfo attr) { int caps = 0; EditorInfo ei = getCurrentInputEditorInfo(); if (mAutoCap && ei != null && ei.inputType != EditorInfo.TYPE_NULL) { caps = ic.getCursorCapsMode(attr.inputType); } return caps; } private void swapPunctuationAndSpace() { final InputConnection ic = getCurrentInputConnection(); if (ic == null) return; CharSequence lastTwo = ic.getTextBeforeCursor(2, 0); if (lastTwo != null && lastTwo.length() == 2 && lastTwo.charAt(0) == KEYCODE_SPACE && isSentenceSeparator(lastTwo.charAt(1))) { ic.beginBatchEdit(); ic.deleteSurroundingText(2, 0); ic.commitText(lastTwo.charAt(1) + " ", 1); ic.endBatchEdit(); updateShiftKeyState(getCurrentInputEditorInfo()); mJustAddedAutoSpace = true; } } private void reswapPeriodAndSpace() { final InputConnection ic = getCurrentInputConnection(); if (ic == null) return; CharSequence lastThree = ic.getTextBeforeCursor(3, 0); if (lastThree != null && lastThree.length() == 3 && lastThree.charAt(0) == KEYCODE_PERIOD && lastThree.charAt(1) == KEYCODE_SPACE && lastThree.charAt(2) == KEYCODE_PERIOD) { ic.beginBatchEdit(); ic.deleteSurroundingText(3, 0); ic.commitText(" ..", 1); ic.endBatchEdit(); updateShiftKeyState(getCurrentInputEditorInfo()); } } private void doubleSpace() { //if (!mAutoPunctuate) return; if (mCorrectionMode == Suggest.CORRECTION_NONE) return; final InputConnection ic = getCurrentInputConnection(); if (ic == null) return; CharSequence lastThree = ic.getTextBeforeCursor(3, 0); if (lastThree != null && lastThree.length() == 3 && Character.isLetterOrDigit(lastThree.charAt(0)) && lastThree.charAt(1) == KEYCODE_SPACE && lastThree.charAt(2) == KEYCODE_SPACE) { ic.beginBatchEdit(); ic.deleteSurroundingText(2, 0); ic.commitText(". ", 1); ic.endBatchEdit(); updateShiftKeyState(getCurrentInputEditorInfo()); mJustAddedAutoSpace = true; } } private void maybeRemovePreviousPeriod(CharSequence text) { final InputConnection ic = getCurrentInputConnection(); if (ic == null) return; // When the text's first character is '.', remove the previous period // if there is one. CharSequence lastOne = ic.getTextBeforeCursor(1, 0); if (lastOne != null && lastOne.length() == 1 && lastOne.charAt(0) == KEYCODE_PERIOD && text.charAt(0) == KEYCODE_PERIOD) { ic.deleteSurroundingText(1, 0); } } private void removeTrailingSpace() { final InputConnection ic = getCurrentInputConnection(); if (ic == null) return; CharSequence lastOne = ic.getTextBeforeCursor(1, 0); if (lastOne != null && lastOne.length() == 1 && lastOne.charAt(0) == KEYCODE_SPACE) { ic.deleteSurroundingText(1, 0); } } public boolean addWordToDictionary(String word) { mUserDictionary.addWord(word, 128); // Suggestion strip should be updated after the operation of adding word to the // user dictionary postUpdateSuggestions(); return true; } private boolean isAlphabet(int code) { if (Character.isLetter(code)) { return true; } else { return false; } } private void showInputMethodSubtypePicker() { ((InputMethodManager) getSystemService(INPUT_METHOD_SERVICE)) .showInputMethodSubtypePicker(); } private void onOptionKeyPressed() { if (!isShowingOptionDialog()) { if (LatinIMEUtil.hasMultipleEnabledIMEs(this)) { showOptionsMenu(); } else { launchSettings(); } } } private void onOptionKeyLongPressed() { if (!isShowingOptionDialog()) { if (LatinIMEUtil.hasMultipleEnabledIMEs(this)) { showInputMethodSubtypePicker(); } else { launchSettings(); } } } private boolean isShowingOptionDialog() { return mOptionsDialog != null && mOptionsDialog.isShowing(); } // Implementation of KeyboardViewListener public void onKey(int primaryCode, int[] keyCodes, int x, int y) { long when = SystemClock.uptimeMillis(); if (primaryCode != BaseKeyboard.KEYCODE_DELETE || when > mLastKeyTime + QUICK_PRESS) { mDeleteCount = 0; } mLastKeyTime = when; final boolean distinctMultiTouch = mKeyboardSwitcher.hasDistinctMultitouch(); switch (primaryCode) { case BaseKeyboard.KEYCODE_DELETE: handleBackspace(); mDeleteCount++; LatinImeLogger.logOnDelete(); break; case BaseKeyboard.KEYCODE_SHIFT: // Shift key is handled in onPress() when device has distinct multi-touch panel. if (!distinctMultiTouch) handleShift(); break; case BaseKeyboard.KEYCODE_MODE_CHANGE: // Symbol key is handled in onPress() when device has distinct multi-touch panel. if (!distinctMultiTouch) changeKeyboardMode(); break; case BaseKeyboard.KEYCODE_CANCEL: if (!isShowingOptionDialog()) { handleClose(); } break; case LatinKeyboardView.KEYCODE_OPTIONS: onOptionKeyPressed(); break; case LatinKeyboardView.KEYCODE_OPTIONS_LONGPRESS: onOptionKeyLongPressed(); break; case LatinKeyboardView.KEYCODE_NEXT_LANGUAGE: toggleLanguage(false, true); break; case LatinKeyboardView.KEYCODE_PREV_LANGUAGE: toggleLanguage(false, false); break; case LatinKeyboardView.KEYCODE_CAPSLOCK: handleCapsLock(); break; case LatinKeyboardView.KEYCODE_VOICE: if (VOICE_INSTALLED) { startListening(false /* was a button press, was not a swipe */); } break; case KEYCODE_TAB: sendDownUpKeyEvents(KeyEvent.KEYCODE_TAB); break; default: if (primaryCode != KEYCODE_ENTER) { mJustAddedAutoSpace = false; } RingCharBuffer.getInstance().push((char)primaryCode, x, y); LatinImeLogger.logOnInputChar(); if (isWordSeparator(primaryCode)) { handleSeparator(primaryCode); } else { handleCharacter(primaryCode, keyCodes); } // Cancel the just reverted state mJustRevertedSeparator = null; } if (mKeyboardSwitcher.onKey(primaryCode)) { changeKeyboardMode(); } // Reset after any single keystroke mEnteredText = null; } public void onText(CharSequence text) { if (VOICE_INSTALLED && mVoiceInputHighlighted) { commitVoiceInput(); } InputConnection ic = getCurrentInputConnection(); if (ic == null) return; abortCorrection(false); ic.beginBatchEdit(); if (mPredicting) { commitTyped(ic); } maybeRemovePreviousPeriod(text); ic.commitText(text, 1); ic.endBatchEdit(); updateShiftKeyState(getCurrentInputEditorInfo()); mJustRevertedSeparator = null; mJustAddedAutoSpace = false; mEnteredText = text; } public void onCancel() { // User released a finger outside any key } private void handleBackspace() { if (VOICE_INSTALLED && mVoiceInputHighlighted) { mVoiceInput.incrementTextModificationDeleteCount( mVoiceResults.candidates.get(0).toString().length()); revertVoiceInput(); return; } boolean deleteChar = false; InputConnection ic = getCurrentInputConnection(); if (ic == null) return; ic.beginBatchEdit(); if (mAfterVoiceInput) { // Don't log delete if the user is pressing delete at // the beginning of the text box (hence not deleting anything) if (mVoiceInput.getCursorPos() > 0) { // If anything was selected before the delete was pressed, increment the // delete count by the length of the selection int deleteLen = mVoiceInput.getSelectionSpan() > 0 ? mVoiceInput.getSelectionSpan() : 1; mVoiceInput.incrementTextModificationDeleteCount(deleteLen); } } if (mPredicting) { final int length = mComposing.length(); if (length > 0) { mComposing.delete(length - 1, length); mWord.deleteLast(); ic.setComposingText(mComposing, 1); if (mComposing.length() == 0) { mPredicting = false; } postUpdateSuggestions(); } else { ic.deleteSurroundingText(1, 0); } } else { deleteChar = true; } postUpdateShiftKeyState(); TextEntryState.backspace(); if (TextEntryState.getState() == TextEntryState.State.UNDO_COMMIT) { revertLastWord(deleteChar); ic.endBatchEdit(); return; } else if (mEnteredText != null && sameAsTextBeforeCursor(ic, mEnteredText)) { ic.deleteSurroundingText(mEnteredText.length(), 0); } else if (deleteChar) { if (mCandidateView != null && mCandidateView.dismissAddToDictionaryHint()) { // Go back to the suggestion mode if the user canceled the // "Touch again to save". // NOTE: In gerenal, we don't revert the word when backspacing // from a manual suggestion pick. We deliberately chose a // different behavior only in the case of picking the first // suggestion (typed word). It's intentional to have made this // inconsistent with backspacing after selecting other suggestions. revertLastWord(deleteChar); } else { sendDownUpKeyEvents(KeyEvent.KEYCODE_DEL); if (mDeleteCount > DELETE_ACCELERATE_AT) { sendDownUpKeyEvents(KeyEvent.KEYCODE_DEL); } } } mJustRevertedSeparator = null; ic.endBatchEdit(); } private void resetShift() { handleShiftInternal(true); } private void handleShift() { handleShiftInternal(false); } private void handleShiftInternal(boolean forceNormal) { mHandler.removeMessages(MSG_UPDATE_SHIFT_STATE); KeyboardSwitcher switcher = mKeyboardSwitcher; if (switcher.isAlphabetMode()) { LatinKeyboardView inputView = switcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; if (latinKeyboard.isShiftLocked() || forceNormal) { switcher.setShifted(false); } else { switcher.setShifted(!latinKeyboard.isShifted()); } } else { switcher.toggleShift(); } } private void handleCapsLock() { mHandler.removeMessages(MSG_UPDATE_SHIFT_STATE); KeyboardSwitcher switcher = mKeyboardSwitcher; if (switcher.isAlphabetMode()) { LatinKeyboardView inputView = switcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; if (latinKeyboard.isShiftLocked()) { // LatinKeyboard.setShifted(false) also disable shift locked state. // Note: Caps lock LED is off when Key.on is false. switcher.setShifted(false); } else { // LatinKeyboard.setShiftLocked(true) enable shift state too. // Note: Caps lock LED is on when Key.on is true. switcher.setShiftLocked(true); } } } private void abortCorrection(boolean force) { if (force || TextEntryState.isCorrecting()) { TextEntryState.onAbortCorrection(); setCandidatesViewShown(isCandidateStripVisible()); getCurrentInputConnection().finishComposingText(); clearSuggestions(); } } private void handleCharacter(int primaryCode, int[] keyCodes) { if (VOICE_INSTALLED && mVoiceInputHighlighted) { commitVoiceInput(); } if (mAfterVoiceInput) { // Assume input length is 1. This assumption fails for smiley face insertions. mVoiceInput.incrementTextModificationInsertCount(1); } if (mLastSelectionStart == mLastSelectionEnd && TextEntryState.isCorrecting()) { abortCorrection(false); } if (isAlphabet(primaryCode) && isPredictionOn() && !isCursorTouchingWord()) { if (!mPredicting) { mPredicting = true; mComposing.setLength(0); saveWordInHistory(mBestWord); mWord.reset(); } } LatinKeyboard latinKeyboard = mKeyboardSwitcher.getInputView().getLatinKeyboard(); if (latinKeyboard != null && latinKeyboard.isShifted()) { if (keyCodes == null || keyCodes[0] < Character.MIN_CODE_POINT || keyCodes[0] > Character.MAX_CODE_POINT) { return; } primaryCode = keyCodes[0]; if (mKeyboardSwitcher.isAlphabetMode() && Character.isLowerCase(primaryCode)) { int upperCaseCode = Character.toUpperCase(primaryCode); if (upperCaseCode != primaryCode) { primaryCode = upperCaseCode; } else { // Some keys, such as [eszett], have upper case as multi-characters. String upperCase = new String(new int[] {primaryCode}, 0, 1).toUpperCase(); onText(upperCase); return; } } } if (mPredicting) { if (latinKeyboard != null && latinKeyboard.isShifted() && mKeyboardSwitcher.isAlphabetMode() && mComposing.length() == 0) { mWord.setFirstCharCapitalized(true); } mComposing.append((char) primaryCode); mWord.add(primaryCode, keyCodes); InputConnection ic = getCurrentInputConnection(); if (ic != null) { // If it's the first letter, make note of auto-caps state if (mWord.size() == 1) { mWord.setAutoCapitalized( getCursorCapsMode(ic, getCurrentInputEditorInfo()) != 0); } ic.setComposingText(mComposing, 1); } postUpdateSuggestions(); } else { sendKeyChar((char)primaryCode); } updateShiftKeyState(getCurrentInputEditorInfo()); if (LatinIME.PERF_DEBUG) measureCps(); TextEntryState.typedCharacter((char) primaryCode, isWordSeparator(primaryCode)); } private void handleSeparator(int primaryCode) { if (VOICE_INSTALLED && mVoiceInputHighlighted) { commitVoiceInput(); } if (mAfterVoiceInput){ // Assume input length is 1. This assumption fails for smiley face insertions. mVoiceInput.incrementTextModificationInsertPunctuationCount(1); } // Should dismiss the "Touch again to save" message when handling separator if (mCandidateView != null && mCandidateView.dismissAddToDictionaryHint()) { postUpdateSuggestions(); } boolean pickedDefault = false; // Handle separator InputConnection ic = getCurrentInputConnection(); if (ic != null) { ic.beginBatchEdit(); abortCorrection(false); } if (mPredicting) { // In certain languages where single quote is a separator, it's better // not to auto correct, but accept the typed word. For instance, // in Italian dov' should not be expanded to dove' because the elision // requires the last vowel to be removed. if (mAutoCorrectOn && primaryCode != '\'' && (mJustRevertedSeparator == null || mJustRevertedSeparator.length() == 0 || mJustRevertedSeparator.charAt(0) != primaryCode)) { pickedDefault = pickDefaultSuggestion(); // Picked the suggestion by the space key. We consider this // as "added an auto space". if (primaryCode == KEYCODE_SPACE) { mJustAddedAutoSpace = true; } } else { commitTyped(ic); } } if (mJustAddedAutoSpace && primaryCode == KEYCODE_ENTER) { removeTrailingSpace(); mJustAddedAutoSpace = false; } sendKeyChar((char)primaryCode); // Handle the case of ". ." -> " .." with auto-space if necessary // before changing the TextEntryState. if (TextEntryState.getState() == TextEntryState.State.PUNCTUATION_AFTER_ACCEPTED && primaryCode == KEYCODE_PERIOD) { reswapPeriodAndSpace(); } TextEntryState.typedCharacter((char) primaryCode, true); if (TextEntryState.getState() == TextEntryState.State.PUNCTUATION_AFTER_ACCEPTED && primaryCode != KEYCODE_ENTER) { swapPunctuationAndSpace(); } else if (isPredictionOn() && primaryCode == KEYCODE_SPACE) { doubleSpace(); } if (pickedDefault) { TextEntryState.backToAcceptedDefault(mWord.getTypedWord()); } updateShiftKeyState(getCurrentInputEditorInfo()); if (ic != null) { ic.endBatchEdit(); } } private void handleClose() { commitTyped(getCurrentInputConnection()); if (VOICE_INSTALLED & mRecognizing) { mVoiceInput.cancel(); } requestHideSelf(0); if (mKeyboardSwitcher != null) { LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView != null) { inputView.closing(); } } TextEntryState.endSession(); } private void saveWordInHistory(CharSequence result) { if (mWord.size() <= 1) { mWord.reset(); return; } // Skip if result is null. It happens in some edge case. if (TextUtils.isEmpty(result)) { return; } // Make a copy of the CharSequence, since it is/could be a mutable CharSequence final String resultCopy = result.toString(); TypedWordAlternatives entry = new TypedWordAlternatives(resultCopy, new WordComposer(mWord)); mWordHistory.add(entry); } private void postUpdateSuggestions() { mHandler.removeMessages(MSG_UPDATE_SUGGESTIONS); mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_UPDATE_SUGGESTIONS), DELAY_UPDATE_SUGGESTIONS); } private void postUpdateOldSuggestions() { mHandler.removeMessages(MSG_UPDATE_OLD_SUGGESTIONS); mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_UPDATE_OLD_SUGGESTIONS), DELAY_UPDATE_OLD_SUGGESTIONS); } private boolean isPredictionOn() { return mPredictionOn; } private boolean isCandidateStripVisible() { return (isPredictionOn() && mShowSuggestions) || mCompletionOn || mCandidateView.isShowingAddToDictionaryHint() || TextEntryState.isCorrecting(); } public void onCancelVoice() { if (mRecognizing) { switchToKeyboardView(); } } private void switchToKeyboardView() { mHandler.post(new Runnable() { public void run() { mRecognizing = false; if (mKeyboardSwitcher.getInputView() != null) { setInputView(mKeyboardSwitcher.getInputView()); } setCandidatesViewShown(isCandidateStripVisible()); updateInputViewShown(); postUpdateSuggestions(); }}); } private void switchToRecognitionStatusView() { final boolean configChanged = mConfigurationChanging; mHandler.post(new Runnable() { public void run() { setCandidatesViewShown(false); mRecognizing = true; View v = mVoiceInput.getView(); ViewParent p = v.getParent(); if (p != null && p instanceof ViewGroup) { ((ViewGroup)v.getParent()).removeView(v); } setInputView(v); updateInputViewShown(); if (configChanged) { mVoiceInput.onConfigurationChanged(); } }}); } private void startListening(boolean swipe) { if (!mHasUsedVoiceInput || (!mLocaleSupportedForVoiceInput && !mHasUsedVoiceInputUnsupportedLocale)) { // Calls reallyStartListening if user clicks OK, does nothing if user clicks Cancel. showVoiceWarningDialog(swipe); } else { reallyStartListening(swipe); } } private void reallyStartListening(boolean swipe) { if (!mHasUsedVoiceInput) { // The user has started a voice input, so remember that in the // future (so we don't show the warning dialog after the first run). SharedPreferences.Editor editor = PreferenceManager.getDefaultSharedPreferences(this).edit(); editor.putBoolean(PREF_HAS_USED_VOICE_INPUT, true); SharedPreferencesCompat.apply(editor); mHasUsedVoiceInput = true; } if (!mLocaleSupportedForVoiceInput && !mHasUsedVoiceInputUnsupportedLocale) { // The user has started a voice input from an unsupported locale, so remember that // in the future (so we don't show the warning dialog the next time they do this). SharedPreferences.Editor editor = PreferenceManager.getDefaultSharedPreferences(this).edit(); editor.putBoolean(PREF_HAS_USED_VOICE_INPUT_UNSUPPORTED_LOCALE, true); SharedPreferencesCompat.apply(editor); mHasUsedVoiceInputUnsupportedLocale = true; } // Clear N-best suggestions clearSuggestions(); FieldContext context = new FieldContext( getCurrentInputConnection(), getCurrentInputEditorInfo(), mLanguageSwitcher.getInputLanguage(), mLanguageSwitcher.getEnabledLanguages()); mVoiceInput.startListening(context, swipe); switchToRecognitionStatusView(); } private void showVoiceWarningDialog(final boolean swipe) { AlertDialog.Builder builder = new AlertDialog.Builder(this); builder.setCancelable(true); builder.setIcon(R.drawable.ic_mic_dialog); builder.setPositiveButton(android.R.string.ok, new DialogInterface.OnClickListener() { public void onClick(DialogInterface dialog, int whichButton) { mVoiceInput.logKeyboardWarningDialogOk(); reallyStartListening(swipe); } }); builder.setNegativeButton(android.R.string.cancel, new DialogInterface.OnClickListener() { public void onClick(DialogInterface dialog, int whichButton) { mVoiceInput.logKeyboardWarningDialogCancel(); } }); if (mLocaleSupportedForVoiceInput) { String message = getString(R.string.voice_warning_may_not_understand) + "\n\n" + getString(R.string.voice_warning_how_to_turn_off); builder.setMessage(message); } else { String message = getString(R.string.voice_warning_locale_not_supported) + "\n\n" + getString(R.string.voice_warning_may_not_understand) + "\n\n" + getString(R.string.voice_warning_how_to_turn_off); builder.setMessage(message); } builder.setTitle(R.string.voice_warning_title); mVoiceWarningDialog = builder.create(); Window window = mVoiceWarningDialog.getWindow(); WindowManager.LayoutParams lp = window.getAttributes(); lp.token = mKeyboardSwitcher.getInputView().getWindowToken(); lp.type = WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG; window.setAttributes(lp); window.addFlags(WindowManager.LayoutParams.FLAG_ALT_FOCUSABLE_IM); mVoiceInput.logKeyboardWarningDialogShown(); mVoiceWarningDialog.show(); } public void onVoiceResults(List candidates, Map> alternatives) { if (!mRecognizing) { return; } mVoiceResults.candidates = candidates; mVoiceResults.alternatives = alternatives; mHandler.sendMessage(mHandler.obtainMessage(MSG_VOICE_RESULTS)); } private void handleVoiceResults() { mAfterVoiceInput = true; mImmediatelyAfterVoiceInput = true; InputConnection ic = getCurrentInputConnection(); if (!isFullscreenMode()) { // Start listening for updates to the text from typing, etc. if (ic != null) { ExtractedTextRequest req = new ExtractedTextRequest(); ic.getExtractedText(req, InputConnection.GET_EXTRACTED_TEXT_MONITOR); } } vibrate(); switchToKeyboardView(); final List nBest = new ArrayList(); boolean capitalizeFirstWord = preferCapitalization() || (mKeyboardSwitcher.isAlphabetMode() && mKeyboardSwitcher.getInputView().getLatinKeyboard() != null && mKeyboardSwitcher.getInputView().getLatinKeyboard().isShifted()); for (String c : mVoiceResults.candidates) { if (capitalizeFirstWord) { c = Character.toUpperCase(c.charAt(0)) + c.substring(1, c.length()); } nBest.add(c); } if (nBest.size() == 0) { return; } String bestResult = nBest.get(0).toString(); mVoiceInput.logVoiceInputDelivered(bestResult.length()); mHints.registerVoiceResult(bestResult); if (ic != null) ic.beginBatchEdit(); // To avoid extra updates on committing older text commitTyped(ic); EditingUtil.appendText(ic, bestResult); if (ic != null) ic.endBatchEdit(); mVoiceInputHighlighted = true; mWordToSuggestions.putAll(mVoiceResults.alternatives); } private void clearSuggestions() { setSuggestions(null, false, false, false); } private void setSuggestions( List suggestions, boolean completions, boolean typedWordValid, boolean haveMinimalSuggestion) { if (mIsShowingHint) { setCandidatesView(mCandidateViewContainer); mIsShowingHint = false; } if (mCandidateView != null) { mCandidateView.setSuggestions( suggestions, completions, typedWordValid, haveMinimalSuggestion); } } private void updateSuggestions() { LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard != null) { latinKeyboard.setPreferredLetters(null); } // Check if we have a suggestion engine attached. if ((mSuggest == null || !isPredictionOn()) && !mVoiceInputHighlighted) { return; } if (!mPredicting) { setPunctuationSuggestions(); return; } showSuggestions(mWord); } private List getTypedSuggestions(WordComposer word) { List stringList = mSuggest.getSuggestions( mKeyboardSwitcher.getInputView(), word, false, null); return stringList; } private void showCorrections(WordAlternatives alternatives) { List stringList = alternatives.getAlternatives(); LatinKeyboard latinKeyboard = mKeyboardSwitcher.getInputView().getLatinKeyboard(); if (latinKeyboard != null) { latinKeyboard.setPreferredLetters(null); } showSuggestions(stringList, alternatives.getOriginalWord(), false, false); } private void showSuggestions(WordComposer word) { // long startTime = System.currentTimeMillis(); // TIME MEASUREMENT! // TODO Maybe need better way of retrieving previous word CharSequence prevWord = EditingUtil.getPreviousWord(getCurrentInputConnection(), mWordSeparators); List stringList = mSuggest.getSuggestions( mKeyboardSwitcher.getInputView(), word, false, prevWord); // long stopTime = System.currentTimeMillis(); // TIME MEASUREMENT! // Log.d("LatinIME","Suggest Total Time - " + (stopTime - startTime)); int[] nextLettersFrequencies = mSuggest.getNextLettersFrequencies(); LatinKeyboard latinKeyboard = mKeyboardSwitcher.getInputView().getLatinKeyboard(); if (latinKeyboard != null) { latinKeyboard.setPreferredLetters(nextLettersFrequencies); } boolean correctionAvailable = !mInputTypeNoAutoCorrect && mSuggest.hasMinimalCorrection(); //|| mCorrectionMode == mSuggest.CORRECTION_FULL; CharSequence typedWord = word.getTypedWord(); // If we're in basic correct boolean typedWordValid = mSuggest.isValidWord(typedWord) || (preferCapitalization() && mSuggest.isValidWord(typedWord.toString().toLowerCase())); if (mCorrectionMode == Suggest.CORRECTION_FULL || mCorrectionMode == Suggest.CORRECTION_FULL_BIGRAM) { correctionAvailable |= typedWordValid; } // Don't auto-correct words with multiple capital letter correctionAvailable &= !word.isMostlyCaps(); correctionAvailable &= !TextEntryState.isCorrecting(); showSuggestions(stringList, typedWord, typedWordValid, correctionAvailable); } private void showSuggestions(List stringList, CharSequence typedWord, boolean typedWordValid, boolean correctionAvailable) { setSuggestions(stringList, false, typedWordValid, correctionAvailable); if (stringList.size() > 0) { if (correctionAvailable && !typedWordValid && stringList.size() > 1) { mBestWord = stringList.get(1); } else { mBestWord = typedWord; } } else { mBestWord = null; } setCandidatesViewShown(isCandidateStripVisible()); } private boolean pickDefaultSuggestion() { // Complete any pending candidate query first if (mHandler.hasMessages(MSG_UPDATE_SUGGESTIONS)) { mHandler.removeMessages(MSG_UPDATE_SUGGESTIONS); updateSuggestions(); } if (mBestWord != null && mBestWord.length() > 0) { TextEntryState.acceptedDefault(mWord.getTypedWord(), mBestWord); mJustAccepted = true; pickSuggestion(mBestWord, false); // Add the word to the auto dictionary if it's not a known word addToDictionaries(mBestWord, AutoDictionary.FREQUENCY_FOR_TYPED); return true; } return false; } public void pickSuggestionManually(int index, CharSequence suggestion) { List suggestions = mCandidateView.getSuggestions(); if (mAfterVoiceInput && mShowingVoiceSuggestions) { mVoiceInput.flushAllTextModificationCounters(); // send this intent AFTER logging any prior aggregated edits. mVoiceInput.logTextModifiedByChooseSuggestion(suggestion.toString(), index, mWordSeparators, getCurrentInputConnection()); } final boolean correcting = TextEntryState.isCorrecting(); InputConnection ic = getCurrentInputConnection(); if (ic != null) { ic.beginBatchEdit(); } if (mCompletionOn && mCompletions != null && index >= 0 && index < mCompletions.length) { CompletionInfo ci = mCompletions[index]; if (ic != null) { ic.commitCompletion(ci); } mCommittedLength = suggestion.length(); if (mCandidateView != null) { mCandidateView.clear(); } updateShiftKeyState(getCurrentInputEditorInfo()); if (ic != null) { ic.endBatchEdit(); } return; } // If this is a punctuation, apply it through the normal key press if (suggestion.length() == 1 && (isWordSeparator(suggestion.charAt(0)) || isSuggestedPunctuation(suggestion.charAt(0)))) { // Word separators are suggested before the user inputs something. // So, LatinImeLogger logs "" as a user's input. LatinImeLogger.logOnManualSuggestion( "", suggestion.toString(), index, suggestions); final char primaryCode = suggestion.charAt(0); onKey(primaryCode, new int[]{primaryCode}, BaseKeyboardView.NOT_A_TOUCH_COORDINATE, BaseKeyboardView.NOT_A_TOUCH_COORDINATE); if (ic != null) { ic.endBatchEdit(); } return; } mJustAccepted = true; pickSuggestion(suggestion, correcting); // Add the word to the auto dictionary if it's not a known word if (index == 0) { addToDictionaries(suggestion, AutoDictionary.FREQUENCY_FOR_PICKED); } else { addToBigramDictionary(suggestion, 1); } LatinImeLogger.logOnManualSuggestion(mComposing.toString(), suggestion.toString(), index, suggestions); TextEntryState.acceptedSuggestion(mComposing.toString(), suggestion); // Follow it with a space if (mAutoSpace && !correcting) { sendSpace(); mJustAddedAutoSpace = true; } final boolean showingAddToDictionaryHint = index == 0 && mCorrectionMode > 0 && !mSuggest.isValidWord(suggestion) && !mSuggest.isValidWord(suggestion.toString().toLowerCase()); if (!correcting) { // Fool the state watcher so that a subsequent backspace will not do a revert, unless // we just did a correction, in which case we need to stay in // TextEntryState.State.PICKED_SUGGESTION state. TextEntryState.typedCharacter((char) KEYCODE_SPACE, true); setPunctuationSuggestions(); } else if (!showingAddToDictionaryHint) { // If we're not showing the "Touch again to save", then show corrections again. // In case the cursor position doesn't change, make sure we show the suggestions again. clearSuggestions(); postUpdateOldSuggestions(); } if (showingAddToDictionaryHint) { mCandidateView.showAddToDictionaryHint(suggestion); } if (ic != null) { ic.endBatchEdit(); } } private void rememberReplacedWord(CharSequence suggestion) { if (mShowingVoiceSuggestions) { // Retain the replaced word in the alternatives array. EditingUtil.Range range = new EditingUtil.Range(); String wordToBeReplaced = EditingUtil.getWordAtCursor(getCurrentInputConnection(), mWordSeparators, range); if (!mWordToSuggestions.containsKey(wordToBeReplaced)) { wordToBeReplaced = wordToBeReplaced.toLowerCase(); } if (mWordToSuggestions.containsKey(wordToBeReplaced)) { List suggestions = mWordToSuggestions.get(wordToBeReplaced); if (suggestions.contains(suggestion)) { suggestions.remove(suggestion); } suggestions.add(wordToBeReplaced); mWordToSuggestions.remove(wordToBeReplaced); mWordToSuggestions.put(suggestion.toString(), suggestions); } } } /** * Commits the chosen word to the text field and saves it for later * retrieval. * @param suggestion the suggestion picked by the user to be committed to * the text field * @param correcting whether this is due to a correction of an existing * word. */ private void pickSuggestion(CharSequence suggestion, boolean correcting) { LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; InputConnection ic = getCurrentInputConnection(); if (ic != null) { rememberReplacedWord(suggestion); ic.commitText(suggestion, 1); } saveWordInHistory(suggestion); mPredicting = false; mCommittedLength = suggestion.length(); if (latinKeyboard != null) { latinKeyboard.setPreferredLetters(null); } // If we just corrected a word, then don't show punctuations if (!correcting) { setPunctuationSuggestions(); } updateShiftKeyState(getCurrentInputEditorInfo()); } /** * Tries to apply any voice alternatives for the word if this was a spoken word and * there are voice alternatives. * @param touching The word that the cursor is touching, with position information * @return true if an alternative was found, false otherwise. */ private boolean applyVoiceAlternatives(EditingUtil.SelectedWord touching) { // Search for result in spoken word alternatives String selectedWord = touching.word.toString().trim(); if (!mWordToSuggestions.containsKey(selectedWord)) { selectedWord = selectedWord.toLowerCase(); } if (mWordToSuggestions.containsKey(selectedWord)) { mShowingVoiceSuggestions = true; List suggestions = mWordToSuggestions.get(selectedWord); // If the first letter of touching is capitalized, make all the suggestions // start with a capital letter. if (Character.isUpperCase(touching.word.charAt(0))) { for (int i = 0; i < suggestions.size(); i++) { String origSugg = (String) suggestions.get(i); String capsSugg = origSugg.toUpperCase().charAt(0) + origSugg.subSequence(1, origSugg.length()).toString(); suggestions.set(i, capsSugg); } } setSuggestions(suggestions, false, true, true); setCandidatesViewShown(true); return true; } return false; } /** * Tries to apply any typed alternatives for the word if we have any cached alternatives, * otherwise tries to find new corrections and completions for the word. * @param touching The word that the cursor is touching, with position information * @return true if an alternative was found, false otherwise. */ private boolean applyTypedAlternatives(EditingUtil.SelectedWord touching) { // If we didn't find a match, search for result in typed word history WordComposer foundWord = null; WordAlternatives alternatives = null; for (WordAlternatives entry : mWordHistory) { if (TextUtils.equals(entry.getChosenWord(), touching.word)) { if (entry instanceof TypedWordAlternatives) { foundWord = ((TypedWordAlternatives) entry).word; } alternatives = entry; break; } } // If we didn't find a match, at least suggest completions if (foundWord == null && (mSuggest.isValidWord(touching.word) || mSuggest.isValidWord(touching.word.toString().toLowerCase()))) { foundWord = new WordComposer(); for (int i = 0; i < touching.word.length(); i++) { foundWord.add(touching.word.charAt(i), new int[] { touching.word.charAt(i) }); } foundWord.setFirstCharCapitalized(Character.isUpperCase(touching.word.charAt(0))); } // Found a match, show suggestions if (foundWord != null || alternatives != null) { if (alternatives == null) { alternatives = new TypedWordAlternatives(touching.word, foundWord); } showCorrections(alternatives); if (foundWord != null) { mWord = new WordComposer(foundWord); } else { mWord.reset(); } return true; } return false; } private void setOldSuggestions() { mShowingVoiceSuggestions = false; if (mCandidateView != null && mCandidateView.isShowingAddToDictionaryHint()) { return; } InputConnection ic = getCurrentInputConnection(); if (ic == null) return; if (!mPredicting) { // Extract the selected or touching text EditingUtil.SelectedWord touching = EditingUtil.getWordAtCursorOrSelection(ic, mLastSelectionStart, mLastSelectionEnd, mWordSeparators); if (touching != null && touching.word.length() > 1) { ic.beginBatchEdit(); if (!applyVoiceAlternatives(touching) && !applyTypedAlternatives(touching)) { abortCorrection(true); } else { TextEntryState.selectedForCorrection(); EditingUtil.underlineWord(ic, touching); } ic.endBatchEdit(); } else { abortCorrection(true); setPunctuationSuggestions(); // Show the punctuation suggestions list } } else { abortCorrection(true); } } private void setPunctuationSuggestions() { TextEntryState.onShowPunctuationsList(); setCandidatesViewShown(isCandidateStripVisible()); setSuggestions(mSuggestPuncList, false, false, false); } private void addToDictionaries(CharSequence suggestion, int frequencyDelta) { checkAddToDictionary(suggestion, frequencyDelta, false); } private void addToBigramDictionary(CharSequence suggestion, int frequencyDelta) { checkAddToDictionary(suggestion, frequencyDelta, true); } /** * Adds to the UserBigramDictionary and/or AutoDictionary * @param addToBigramDictionary true if it should be added to bigram dictionary if possible */ private void checkAddToDictionary(CharSequence suggestion, int frequencyDelta, boolean addToBigramDictionary) { if (suggestion == null || suggestion.length() < 1) return; // Only auto-add to dictionary if auto-correct is ON. Otherwise we'll be // adding words in situations where the user or application really didn't // want corrections enabled or learned. if (!(mCorrectionMode == Suggest.CORRECTION_FULL || mCorrectionMode == Suggest.CORRECTION_FULL_BIGRAM)) { return; } if (suggestion != null) { if (!addToBigramDictionary && mAutoDictionary.isValidWord(suggestion) || (!mSuggest.isValidWord(suggestion.toString()) && !mSuggest.isValidWord(suggestion.toString().toLowerCase()))) { mAutoDictionary.addWord(suggestion.toString(), frequencyDelta); } if (mUserBigramDictionary != null) { CharSequence prevWord = EditingUtil.getPreviousWord(getCurrentInputConnection(), mSentenceSeparators); if (!TextUtils.isEmpty(prevWord)) { mUserBigramDictionary.addBigrams(prevWord.toString(), suggestion.toString()); } } } } private boolean isCursorTouchingWord() { InputConnection ic = getCurrentInputConnection(); if (ic == null) return false; CharSequence toLeft = ic.getTextBeforeCursor(1, 0); CharSequence toRight = ic.getTextAfterCursor(1, 0); if (!TextUtils.isEmpty(toLeft) && !isWordSeparator(toLeft.charAt(0)) && !isSuggestedPunctuation(toLeft.charAt(0))) { return true; } if (!TextUtils.isEmpty(toRight) && !isWordSeparator(toRight.charAt(0)) && !isSuggestedPunctuation(toRight.charAt(0))) { return true; } return false; } private boolean sameAsTextBeforeCursor(InputConnection ic, CharSequence text) { CharSequence beforeText = ic.getTextBeforeCursor(text.length(), 0); return TextUtils.equals(text, beforeText); } public void revertLastWord(boolean deleteChar) { final int length = mComposing.length(); if (!mPredicting && length > 0) { final InputConnection ic = getCurrentInputConnection(); mPredicting = true; mJustRevertedSeparator = ic.getTextBeforeCursor(1, 0); if (deleteChar) ic.deleteSurroundingText(1, 0); int toDelete = mCommittedLength; CharSequence toTheLeft = ic.getTextBeforeCursor(mCommittedLength, 0); if (toTheLeft != null && toTheLeft.length() > 0 && isWordSeparator(toTheLeft.charAt(0))) { toDelete--; } ic.deleteSurroundingText(toDelete, 0); ic.setComposingText(mComposing, 1); TextEntryState.backspace(); postUpdateSuggestions(); } else { sendDownUpKeyEvents(KeyEvent.KEYCODE_DEL); mJustRevertedSeparator = null; } } protected String getWordSeparators() { return mWordSeparators; } public boolean isWordSeparator(int code) { String separators = getWordSeparators(); return separators.contains(String.valueOf((char)code)); } private boolean isSentenceSeparator(int code) { return mSentenceSeparators.contains(String.valueOf((char)code)); } private void sendSpace() { sendKeyChar((char)KEYCODE_SPACE); updateShiftKeyState(getCurrentInputEditorInfo()); //onKey(KEY_SPACE[0], KEY_SPACE); } public boolean preferCapitalization() { return mWord.isFirstCharCapitalized(); } private void toggleLanguage(boolean reset, boolean next) { if (reset) { mLanguageSwitcher.reset(); } else { if (next) { mLanguageSwitcher.next(); } else { mLanguageSwitcher.prev(); } } final int mode = mKeyboardSwitcher.getKeyboardMode(); final EditorInfo attribute = getCurrentInputEditorInfo(); mKeyboardSwitcher.loadKeyboard(mode, attribute.imeOptions, mVoiceButtonEnabled, mVoiceButtonOnPrimary); initSuggest(mLanguageSwitcher.getInputLanguage()); mLanguageSwitcher.persist(); updateShiftKeyState(getCurrentInputEditorInfo()); } public void onSharedPreferenceChanged(SharedPreferences sharedPreferences, String key) { if (PREF_SELECTED_LANGUAGES.equals(key)) { mLanguageSwitcher.loadLocales(sharedPreferences); mRefreshKeyboardRequired = true; } else if (PREF_RECORRECTION_ENABLED.equals(key)) { mReCorrectionEnabled = sharedPreferences.getBoolean(PREF_RECORRECTION_ENABLED, getResources().getBoolean(R.bool.default_recorrection_enabled)); } } public void swipeRight() { if (LatinKeyboardView.DEBUG_AUTO_PLAY) { ClipboardManager cm = ((ClipboardManager)getSystemService(CLIPBOARD_SERVICE)); CharSequence text = cm.getText(); if (!TextUtils.isEmpty(text)) { mKeyboardSwitcher.getInputView().startPlaying(text.toString()); } } } public void swipeLeft() { } public void swipeDown() { handleClose(); } public void swipeUp() { //launchSettings(); } public void onPress(int primaryCode) { vibrate(); playKeyClick(primaryCode); final boolean distinctMultiTouch = mKeyboardSwitcher.hasDistinctMultitouch(); LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; if (distinctMultiTouch && primaryCode == BaseKeyboard.KEYCODE_SHIFT) { // In alphabet mode, we call handleShift() to go into the shifted mode in this // method, onPress(), only when we are in the small letter mode. if (mKeyboardSwitcher.isAlphabetMode() && latinKeyboard.isShifted()) { mShiftKeyState.onPressOnShifted(); } else { mShiftKeyState.onPress(); handleShift(); } } else if (distinctMultiTouch && primaryCode == BaseKeyboard.KEYCODE_MODE_CHANGE) { mSymbolKeyState.onPress(); changeKeyboardMode(); } else { mShiftKeyState.onOtherKeyPressed(); mSymbolKeyState.onOtherKeyPressed(); } } // TODO: Bug - onRelease() could be dropped if the user slides finger out of the key. It's OK // for general keys, but we need to obtain onRelease() for the shift key even in such case. public void onRelease(int primaryCode) { // Reset any drag flags in the keyboard LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; latinKeyboard.keyReleased(); //vibrate(); final boolean distinctMultiTouch = mKeyboardSwitcher.hasDistinctMultitouch(); if (distinctMultiTouch && primaryCode == BaseKeyboard.KEYCODE_SHIFT) { if (mShiftKeyState.isMomentary()) { resetShift(); } if (mKeyboardSwitcher.isAlphabetMode()) { // In alphabet mode, we call handleShift() to go into the small letter mode in this // method, onRelease(), only when we are in the shifted modes -- temporary shifted // mode or caps lock mode. if (latinKeyboard.isShifted() && mShiftKeyState.isPressingOnShifted()) { handleShift(); } } mShiftKeyState.onRelease(); } else if (distinctMultiTouch && primaryCode == BaseKeyboard.KEYCODE_MODE_CHANGE) { if (mSymbolKeyState.isMomentary()) { changeKeyboardMode(); } mSymbolKeyState.onRelease(); } } private FieldContext makeFieldContext() { return new FieldContext( getCurrentInputConnection(), getCurrentInputEditorInfo(), mLanguageSwitcher.getInputLanguage(), mLanguageSwitcher.getEnabledLanguages()); } private boolean fieldCanDoVoice(FieldContext fieldContext) { return !mPasswordText && mVoiceInput != null && !mVoiceInput.isBlacklistedField(fieldContext); } private boolean shouldShowVoiceButton(FieldContext fieldContext, EditorInfo attribute) { return ENABLE_VOICE_BUTTON && fieldCanDoVoice(fieldContext) && !(attribute != null && IME_OPTION_NO_MICROPHONE.equals(attribute.privateImeOptions)) && SpeechRecognizer.isRecognitionAvailable(this); } // receive ringer mode changes to detect silent mode private BroadcastReceiver mReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { updateRingerMode(); } }; // update flags for silent mode private void updateRingerMode() { if (mAudioManager == null) { mAudioManager = (AudioManager) getSystemService(Context.AUDIO_SERVICE); } if (mAudioManager != null) { mSilentMode = (mAudioManager.getRingerMode() != AudioManager.RINGER_MODE_NORMAL); } } private void playKeyClick(int primaryCode) { // if mAudioManager is null, we don't have the ringer state yet // mAudioManager will be set by updateRingerMode if (mAudioManager == null) { if (mKeyboardSwitcher.getInputView() != null) { updateRingerMode(); } } if (mSoundOn && !mSilentMode) { // FIXME: Volume and enable should come from UI settings // FIXME: These should be triggered after auto-repeat logic int sound = AudioManager.FX_KEYPRESS_STANDARD; switch (primaryCode) { case BaseKeyboard.KEYCODE_DELETE: sound = AudioManager.FX_KEYPRESS_DELETE; break; case KEYCODE_ENTER: sound = AudioManager.FX_KEYPRESS_RETURN; break; case KEYCODE_SPACE: sound = AudioManager.FX_KEYPRESS_SPACEBAR; break; } mAudioManager.playSoundEffect(sound, FX_VOLUME); } } private void vibrate() { if (!mVibrateOn) { return; } if (mKeyboardSwitcher.getInputView() != null) { mKeyboardSwitcher.getInputView().performHapticFeedback( HapticFeedbackConstants.KEYBOARD_TAP, HapticFeedbackConstants.FLAG_IGNORE_GLOBAL_SETTING); } } private void checkTutorial(String privateImeOptions) { if (privateImeOptions == null) return; if (privateImeOptions.equals("com.android.setupwizard:ShowTutorial")) { if (mTutorial == null) startTutorial(); } else if (privateImeOptions.equals("com.android.setupwizard:HideTutorial")) { if (mTutorial != null) { if (mTutorial.close()) { mTutorial = null; } } } } private void startTutorial() { mHandler.sendMessageDelayed(mHandler.obtainMessage(MSG_START_TUTORIAL), 500); } /* package */ void tutorialDone() { mTutorial = null; } /* package */ void promoteToUserDictionary(String word, int frequency) { if (mUserDictionary.isValidWord(word)) return; mUserDictionary.addWord(word, frequency); } /* package */ WordComposer getCurrentWord() { return mWord; } /* package */ boolean getPopupOn() { return mPopupOn; } private void updateCorrectionMode() { mHasDictionary = mSuggest != null ? mSuggest.hasMainDictionary() : false; mAutoCorrectOn = (mAutoCorrectEnabled || mQuickFixes) && !mInputTypeNoAutoCorrect && mHasDictionary; mCorrectionMode = (mAutoCorrectOn && mAutoCorrectEnabled) ? Suggest.CORRECTION_FULL : (mAutoCorrectOn ? Suggest.CORRECTION_BASIC : Suggest.CORRECTION_NONE); mCorrectionMode = (mBigramSuggestionEnabled && mAutoCorrectOn && mAutoCorrectEnabled) ? Suggest.CORRECTION_FULL_BIGRAM : mCorrectionMode; if (mSuggest != null) { mSuggest.setCorrectionMode(mCorrectionMode); } } private void updateAutoTextEnabled(Locale systemLocale) { if (mSuggest == null) return; boolean different = !systemLocale.getLanguage().equalsIgnoreCase(mInputLocale.substring(0, 2)); mSuggest.setAutoTextEnabled(!different && mQuickFixes); } protected void launchSettings() { launchSettings(LatinIMESettings.class); } public void launchDebugSettings() { launchSettings(LatinIMEDebugSettings.class); } protected void launchSettings(Class settingsClass) { handleClose(); Intent intent = new Intent(); intent.setClass(LatinIME.this, settingsClass); intent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK); startActivity(intent); } private void loadSettings(EditorInfo attribute) { // Get the settings preferences SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(this); Vibrator vibrator = (Vibrator) getSystemService(Context.VIBRATOR_SERVICE); mVibrateOn = vibrator != null && vibrator.hasVibrator() && sp.getBoolean(LatinIMESettings.PREF_VIBRATE_ON, false); mSoundOn = sp.getBoolean(PREF_SOUND_ON, false); mPopupOn = sp.getBoolean(PREF_POPUP_ON, mResources.getBoolean(R.bool.default_popup_preview)); mAutoCap = sp.getBoolean(PREF_AUTO_CAP, true); mQuickFixes = sp.getBoolean(PREF_QUICK_FIXES, true); mHasUsedVoiceInput = sp.getBoolean(PREF_HAS_USED_VOICE_INPUT, false); mHasUsedVoiceInputUnsupportedLocale = sp.getBoolean(PREF_HAS_USED_VOICE_INPUT_UNSUPPORTED_LOCALE, false); // Get the current list of supported locales and check the current locale against that // list. We cache this value so as not to check it every time the user starts a voice // input. Because this method is called by onStartInputView, this should mean that as // long as the locale doesn't change while the user is keeping the IME open, the // value should never be stale. String supportedLocalesString = SettingsUtil.getSettingsString( getContentResolver(), SettingsUtil.LATIN_IME_VOICE_INPUT_SUPPORTED_LOCALES, DEFAULT_VOICE_INPUT_SUPPORTED_LOCALES); ArrayList voiceInputSupportedLocales = newArrayList(supportedLocalesString.split("\\s+")); mLocaleSupportedForVoiceInput = voiceInputSupportedLocales.contains(mInputLocale); mShowSuggestions = sp.getBoolean(PREF_SHOW_SUGGESTIONS, true); mAutoCorrectEnabled = mShowSuggestions && isAutoCorrectEnabled(sp); mBigramSuggestionEnabled = mAutoCorrectEnabled && isBigramSuggestionEnabled(sp); loadAndSetAutoCompletionThreshold(sp); if (VOICE_INSTALLED) { final String voiceMode = sp.getString(PREF_VOICE_MODE, getString(R.string.voice_mode_main)); mVoiceButtonEnabled = !voiceMode.equals(getString(R.string.voice_mode_off)) && shouldShowVoiceButton(makeFieldContext(), attribute); mVoiceButtonOnPrimary = voiceMode.equals(getString(R.string.voice_mode_main)); } updateCorrectionMode(); updateAutoTextEnabled(mResources.getConfiguration().locale); mLanguageSwitcher.loadLocales(sp); } /** * load Auto completion threshold from SharedPreferences, * and modify mSuggest's threshold. */ private void loadAndSetAutoCompletionThreshold(SharedPreferences sp) { // When mSuggest is not initialized, cannnot modify mSuggest's threshold. if (mSuggest == null) return; // When auto completion setting is turned off, the threshold is ignored. if (!isAutoCorrectEnabled(sp)) return; final String currentAutoCompletionSetting = sp.getString(PREF_AUTO_COMPLETION_THRESHOLD, mResources.getString(R.string.auto_completion_threshold_mode_value_modest)); final String[] autoCompletionThresholdValues = mResources.getStringArray( R.array.auto_complete_threshold_values); // When autoCompletionThreshold is greater than 1.0, // auto completion is virtually turned off. double autoCompletionThreshold = Double.MAX_VALUE; try { final int arrayIndex = Integer.valueOf(currentAutoCompletionSetting); if (arrayIndex >= 0 && arrayIndex < autoCompletionThresholdValues.length) { autoCompletionThreshold = Double.parseDouble( autoCompletionThresholdValues[arrayIndex]); } } catch (NumberFormatException e) { // Whenever the threshold settings are correct, // never come here. autoCompletionThreshold = Double.MAX_VALUE; Log.w(TAG, "Cannot load auto completion threshold setting." + " currentAutoCompletionSetting: " + currentAutoCompletionSetting + ", autoCompletionThresholdValues: " + Arrays.toString(autoCompletionThresholdValues)); } // TODO: This should be refactored : // setAutoCompleteThreshold should be called outside of this method. mSuggest.setAutoCompleteThreshold(autoCompletionThreshold); } private boolean isAutoCorrectEnabled(SharedPreferences sp) { final String currentAutoCompletionSetting = sp.getString(PREF_AUTO_COMPLETION_THRESHOLD, mResources.getString(R.string.auto_completion_threshold_mode_value_modest)); final String autoCompletionOff = mResources.getString( R.string.auto_completion_threshold_mode_value_off); return !currentAutoCompletionSetting.equals(autoCompletionOff); } private boolean isBigramSuggestionEnabled(SharedPreferences sp) { // TODO: Define default value instead of 'true'. return sp.getBoolean(PREF_BIGRAM_SUGGESTIONS, true); } private void initSuggestPuncList() { mSuggestPuncList = new ArrayList(); mSuggestPuncs = mResources.getString(R.string.suggested_punctuations); if (mSuggestPuncs != null) { for (int i = 0; i < mSuggestPuncs.length(); i++) { mSuggestPuncList.add(mSuggestPuncs.subSequence(i, i + 1)); } } } private boolean isSuggestedPunctuation(int code) { return mSuggestPuncs.contains(String.valueOf((char)code)); } private void showOptionsMenu() { AlertDialog.Builder builder = new AlertDialog.Builder(this); builder.setCancelable(true); builder.setIcon(R.drawable.ic_dialog_keyboard); builder.setNegativeButton(android.R.string.cancel, null); CharSequence itemSettings = getString(R.string.english_ime_settings); CharSequence itemInputMethod = getString(R.string.selectInputMethod); builder.setItems(new CharSequence[] { itemInputMethod, itemSettings}, new DialogInterface.OnClickListener() { public void onClick(DialogInterface di, int position) { di.dismiss(); switch (position) { case POS_SETTINGS: launchSettings(); break; case POS_METHOD: showInputMethodSubtypePicker(); break; } } }); builder.setTitle(mResources.getString(R.string.english_ime_input_options)); mOptionsDialog = builder.create(); Window window = mOptionsDialog.getWindow(); WindowManager.LayoutParams lp = window.getAttributes(); lp.token = mKeyboardSwitcher.getInputView().getWindowToken(); lp.type = WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG; window.setAttributes(lp); window.addFlags(WindowManager.LayoutParams.FLAG_ALT_FOCUSABLE_IM); mOptionsDialog.show(); } private void changeKeyboardMode() { mKeyboardSwitcher.toggleSymbols(); LatinKeyboardView inputView = mKeyboardSwitcher.getInputView(); if (inputView == null) return; LatinKeyboard latinKeyboard = inputView.getLatinKeyboard(); if (latinKeyboard == null) return; if (latinKeyboard.isShiftLocked() && mKeyboardSwitcher.isAlphabetMode()) { mKeyboardSwitcher.setShiftLocked(true); } updateShiftKeyState(getCurrentInputEditorInfo()); } public static ArrayList newArrayList(E... elements) { int capacity = (elements.length * 110) / 100 + 5; ArrayList list = new ArrayList(capacity); Collections.addAll(list, elements); return list; } @Override protected void dump(FileDescriptor fd, PrintWriter fout, String[] args) { super.dump(fd, fout, args); final Printer p = new PrintWriterPrinter(fout); p.println("LatinIME state :"); p.println(" Keyboard mode = " + mKeyboardSwitcher.getKeyboardMode()); p.println(" mComposing=" + mComposing.toString()); p.println(" mPredictionOn=" + mPredictionOn); p.println(" mCorrectionMode=" + mCorrectionMode); p.println(" mPredicting=" + mPredicting); p.println(" mAutoCorrectOn=" + mAutoCorrectOn); p.println(" mAutoSpace=" + mAutoSpace); p.println(" mCompletionOn=" + mCompletionOn); p.println(" TextEntryState.state=" + TextEntryState.getState()); p.println(" mSoundOn=" + mSoundOn); p.println(" mVibrateOn=" + mVibrateOn); p.println(" mPopupOn=" + mPopupOn); } // Characters per second measurement private long mLastCpsTime; private static final int CPS_BUFFER_SIZE = 16; private long[] mCpsIntervals = new long[CPS_BUFFER_SIZE]; private int mCpsIndex; private void measureCps() { long now = System.currentTimeMillis(); if (mLastCpsTime == 0) mLastCpsTime = now - 100; // Initial mCpsIntervals[mCpsIndex] = now - mLastCpsTime; mLastCpsTime = now; mCpsIndex = (mCpsIndex + 1) % CPS_BUFFER_SIZE; long total = 0; for (int i = 0; i < CPS_BUFFER_SIZE; i++) total += mCpsIntervals[i]; System.out.println("CPS = " + ((CPS_BUFFER_SIZE * 1000f) / total)); } public void onAutoCompletionStateChanged(boolean isAutoCompletion) { mKeyboardSwitcher.onAutoCompletionStateChanged(isAutoCompletion); } }