/* * 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 static com.android.inputmethod.latin.Constants.ImeOption.FORCE_ASCII; import static com.android.inputmethod.latin.Constants.ImeOption.NO_MICROPHONE; import static com.android.inputmethod.latin.Constants.ImeOption.NO_MICROPHONE_COMPAT; 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.pm.ApplicationInfo; import android.content.res.Configuration; import android.content.res.Resources; import android.graphics.Rect; import android.inputmethodservice.InputMethodService; import android.media.AudioManager; import android.net.ConnectivityManager; import android.os.Debug; import android.os.IBinder; import android.os.Message; import android.os.SystemClock; import android.preference.PreferenceActivity; import android.preference.PreferenceManager; import android.text.InputType; import android.text.TextUtils; import android.util.Log; import android.util.PrintWriterPrinter; import android.util.Printer; import android.view.KeyCharacterMap; import android.view.KeyEvent; import android.view.View; import android.view.ViewGroup; import android.view.ViewGroup.LayoutParams; import android.view.ViewParent; import android.view.Window; import android.view.WindowManager; import android.view.inputmethod.CompletionInfo; import android.view.inputmethod.CorrectionInfo; import android.view.inputmethod.EditorInfo; import android.view.inputmethod.InputMethodSubtype; import com.android.inputmethod.accessibility.AccessibilityUtils; import com.android.inputmethod.accessibility.AccessibleKeyboardViewProxy; import com.android.inputmethod.compat.CompatUtils; import com.android.inputmethod.compat.InputMethodManagerCompatWrapper; import com.android.inputmethod.compat.SuggestionSpanUtils; import com.android.inputmethod.keyboard.Keyboard; import com.android.inputmethod.keyboard.KeyboardActionListener; import com.android.inputmethod.keyboard.KeyboardId; import com.android.inputmethod.keyboard.KeyboardSwitcher; import com.android.inputmethod.keyboard.KeyboardView; import com.android.inputmethod.keyboard.LatinKeyboardView; import com.android.inputmethod.latin.LocaleUtils.RunInLocale; import com.android.inputmethod.latin.define.ProductionFlag; import com.android.inputmethod.latin.suggestions.SuggestionsView; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Locale; /** * Input method implementation for Qwerty'ish keyboard. */ public class LatinIME extends InputMethodService implements KeyboardActionListener, SuggestionsView.Listener, TargetApplicationGetter.OnTargetApplicationKnownListener { private static final String TAG = LatinIME.class.getSimpleName(); private static final boolean TRACE = false; private static boolean DEBUG; private static final int EXTENDED_TOUCHABLE_REGION_HEIGHT = 100; // 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; private static final int PENDING_IMS_CALLBACK_DURATION = 800; /** * The name of the scheme used by the Package Manager to warn of a new package installation, * replacement or removal. */ private static final String SCHEME_PACKAGE = "package"; private static final int SPACE_STATE_NONE = 0; // Double space: the state where the user pressed space twice quickly, which LatinIME // resolved as period-space. Undoing this converts the period to a space. private static final int SPACE_STATE_DOUBLE = 1; // Swap punctuation: the state where a weak space and a punctuation from the suggestion strip // have just been swapped. Undoing this swaps them back; the space is still considered weak. private static final int SPACE_STATE_SWAP_PUNCTUATION = 2; // Weak space: a space that should be swapped only by suggestion strip punctuation. Weak // spaces happen when the user presses space, accepting the current suggestion (whether // it's an auto-correction or not). private static final int SPACE_STATE_WEAK = 3; // Phantom space: a not-yet-inserted space that should get inserted on the next input, // character provided it's not a separator. If it's a separator, the phantom space is dropped. // Phantom spaces happen when a user chooses a word from the suggestion strip. private static final int SPACE_STATE_PHANTOM = 4; // Current space state of the input method. This can be any of the above constants. private int mSpaceState; private SettingsValues mCurrentSettings; private View mExtractArea; private View mKeyPreviewBackingView; private View mSuggestionsContainer; private SuggestionsView mSuggestionsView; /* package for tests */ Suggest mSuggest; private CompletionInfo[] mApplicationSpecifiedCompletions; private ApplicationInfo mTargetApplicationInfo; private InputMethodManagerCompatWrapper mImm; private Resources mResources; private SharedPreferences mPrefs; /* package for tests */ final KeyboardSwitcher mKeyboardSwitcher; private final SubtypeSwitcher mSubtypeSwitcher; private boolean mShouldSwitchToLastSubtype = true; private boolean mIsMainDictionaryAvailable; private UserBinaryDictionary mUserDictionary; private UserHistoryDictionary mUserHistoryDictionary; private boolean mIsUserDictionaryAvailable; private LastComposedWord mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD; private WordComposer mWordComposer = new WordComposer(); private RichInputConnection mConnection = new RichInputConnection(); // Keep track of the last selection range to decide if we need to show word alternatives private static final int NOT_A_CURSOR_POSITION = -1; private int mLastSelectionStart = NOT_A_CURSOR_POSITION; private int mLastSelectionEnd = NOT_A_CURSOR_POSITION; // Whether we are expecting an onUpdateSelection event to fire. If it does when we don't // "expect" it, it means the user actually moved the cursor. private boolean mExpectingUpdateSelection; private int mDeleteCount; private long mLastKeyTime; private AudioAndHapticFeedbackManager mFeedbackManager; // Member variables for remembering the current device orientation. private int mDisplayOrientation; // Object for reacting to adding/removing a dictionary pack. private BroadcastReceiver mDictionaryPackInstallReceiver = new DictionaryPackInstallBroadcastReceiver(this); // Keeps track of most recently inserted text (multi-character key) for reverting private CharSequence mEnteredText; private boolean mIsAutoCorrectionIndicatorOn; private AlertDialog mOptionsDialog; public final UIHandler mHandler = new UIHandler(this); public static class UIHandler extends StaticInnerHandlerWrapper { private static final int MSG_UPDATE_SHIFT_STATE = 1; private static final int MSG_SET_BIGRAM_PREDICTIONS = 5; private static final int MSG_PENDING_IMS_CALLBACK = 6; private static final int MSG_UPDATE_SUGGESTIONS = 7; private int mDelayUpdateSuggestions; private int mDelayUpdateShiftState; private long mDoubleSpacesTurnIntoPeriodTimeout; private long mDoubleSpaceTimerStart; public UIHandler(LatinIME outerInstance) { super(outerInstance); } public void onCreate() { final Resources res = getOuterInstance().getResources(); mDelayUpdateSuggestions = res.getInteger(R.integer.config_delay_update_suggestions); mDelayUpdateShiftState = res.getInteger(R.integer.config_delay_update_shift_state); mDoubleSpacesTurnIntoPeriodTimeout = res.getInteger( R.integer.config_double_spaces_turn_into_period_timeout); } @Override public void handleMessage(Message msg) { final LatinIME latinIme = getOuterInstance(); final KeyboardSwitcher switcher = latinIme.mKeyboardSwitcher; switch (msg.what) { case MSG_UPDATE_SUGGESTIONS: latinIme.updateSuggestions(); break; case MSG_UPDATE_SHIFT_STATE: switcher.updateShiftState(); break; case MSG_SET_BIGRAM_PREDICTIONS: latinIme.updateBigramPredictions(); break; } } public void postUpdateSuggestions() { removeMessages(MSG_UPDATE_SUGGESTIONS); sendMessageDelayed(obtainMessage(MSG_UPDATE_SUGGESTIONS), mDelayUpdateSuggestions); } public void cancelUpdateSuggestions() { removeMessages(MSG_UPDATE_SUGGESTIONS); } public boolean hasPendingUpdateSuggestions() { return hasMessages(MSG_UPDATE_SUGGESTIONS); } public void postUpdateShiftState() { removeMessages(MSG_UPDATE_SHIFT_STATE); sendMessageDelayed(obtainMessage(MSG_UPDATE_SHIFT_STATE), mDelayUpdateShiftState); } public void cancelUpdateShiftState() { removeMessages(MSG_UPDATE_SHIFT_STATE); } public void postUpdateBigramPredictions() { removeMessages(MSG_SET_BIGRAM_PREDICTIONS); sendMessageDelayed(obtainMessage(MSG_SET_BIGRAM_PREDICTIONS), mDelayUpdateSuggestions); } public void cancelUpdateBigramPredictions() { removeMessages(MSG_SET_BIGRAM_PREDICTIONS); } public void startDoubleSpacesTimer() { mDoubleSpaceTimerStart = SystemClock.uptimeMillis(); } public void cancelDoubleSpacesTimer() { mDoubleSpaceTimerStart = 0; } public boolean isAcceptingDoubleSpaces() { return SystemClock.uptimeMillis() - mDoubleSpaceTimerStart < mDoubleSpacesTurnIntoPeriodTimeout; } // Working variables for the following methods. private boolean mIsOrientationChanging; private boolean mPendingSuccessiveImsCallback; private boolean mHasPendingStartInput; private boolean mHasPendingFinishInputView; private boolean mHasPendingFinishInput; private EditorInfo mAppliedEditorInfo; public void startOrientationChanging() { removeMessages(MSG_PENDING_IMS_CALLBACK); resetPendingImsCallback(); mIsOrientationChanging = true; final LatinIME latinIme = getOuterInstance(); if (latinIme.isInputViewShown()) { latinIme.mKeyboardSwitcher.saveKeyboardState(); } } private void resetPendingImsCallback() { mHasPendingFinishInputView = false; mHasPendingFinishInput = false; mHasPendingStartInput = false; } private void executePendingImsCallback(LatinIME latinIme, EditorInfo editorInfo, boolean restarting) { if (mHasPendingFinishInputView) latinIme.onFinishInputViewInternal(mHasPendingFinishInput); if (mHasPendingFinishInput) latinIme.onFinishInputInternal(); if (mHasPendingStartInput) latinIme.onStartInputInternal(editorInfo, restarting); resetPendingImsCallback(); } public void onStartInput(EditorInfo editorInfo, boolean restarting) { if (hasMessages(MSG_PENDING_IMS_CALLBACK)) { // Typically this is the second onStartInput after orientation changed. mHasPendingStartInput = true; } else { if (mIsOrientationChanging && restarting) { // This is the first onStartInput after orientation changed. mIsOrientationChanging = false; mPendingSuccessiveImsCallback = true; } final LatinIME latinIme = getOuterInstance(); executePendingImsCallback(latinIme, editorInfo, restarting); latinIme.onStartInputInternal(editorInfo, restarting); } } public void onStartInputView(EditorInfo editorInfo, boolean restarting) { if (hasMessages(MSG_PENDING_IMS_CALLBACK) && KeyboardId.equivalentEditorInfoForKeyboard(editorInfo, mAppliedEditorInfo)) { // Typically this is the second onStartInputView after orientation changed. resetPendingImsCallback(); } else { if (mPendingSuccessiveImsCallback) { // This is the first onStartInputView after orientation changed. mPendingSuccessiveImsCallback = false; resetPendingImsCallback(); sendMessageDelayed(obtainMessage(MSG_PENDING_IMS_CALLBACK), PENDING_IMS_CALLBACK_DURATION); } final LatinIME latinIme = getOuterInstance(); executePendingImsCallback(latinIme, editorInfo, restarting); latinIme.onStartInputViewInternal(editorInfo, restarting); mAppliedEditorInfo = editorInfo; } } public void onFinishInputView(boolean finishingInput) { if (hasMessages(MSG_PENDING_IMS_CALLBACK)) { // Typically this is the first onFinishInputView after orientation changed. mHasPendingFinishInputView = true; } else { final LatinIME latinIme = getOuterInstance(); latinIme.onFinishInputViewInternal(finishingInput); mAppliedEditorInfo = null; } } public void onFinishInput() { if (hasMessages(MSG_PENDING_IMS_CALLBACK)) { // Typically this is the first onFinishInput after orientation changed. mHasPendingFinishInput = true; } else { final LatinIME latinIme = getOuterInstance(); executePendingImsCallback(latinIme, null, false); latinIme.onFinishInputInternal(); } } } public LatinIME() { super(); mSubtypeSwitcher = SubtypeSwitcher.getInstance(); mKeyboardSwitcher = KeyboardSwitcher.getInstance(); } @Override public void onCreate() { final SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(this); mPrefs = prefs; LatinImeLogger.init(this, prefs); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.getInstance().init(this, prefs); } InputMethodManagerCompatWrapper.init(this); SubtypeSwitcher.init(this); KeyboardSwitcher.init(this, prefs); AccessibilityUtils.init(this); super.onCreate(); mImm = InputMethodManagerCompatWrapper.getInstance(); mHandler.onCreate(); DEBUG = LatinImeLogger.sDBG; final Resources res = getResources(); mResources = res; loadSettings(); ImfUtils.setAdditionalInputMethodSubtypes(this, mCurrentSettings.getAdditionalSubtypes()); Utils.GCUtils.getInstance().reset(); boolean tryGC = true; // Shouldn't this be removed? I think that from Honeycomb on, the GC is now actually working // as expected and this code is useless. for (int i = 0; i < Utils.GCUtils.GC_TRY_LOOP_MAX && tryGC; ++i) { try { initSuggest(); tryGC = false; } catch (OutOfMemoryError e) { tryGC = Utils.GCUtils.getInstance().tryGCOrWait("InitSuggest", e); } } mDisplayOrientation = res.getConfiguration().orientation; // Register to receive ringer mode change and network state change. // Also receive installation and removal of a dictionary pack. final IntentFilter filter = new IntentFilter(); filter.addAction(ConnectivityManager.CONNECTIVITY_ACTION); filter.addAction(AudioManager.RINGER_MODE_CHANGED_ACTION); registerReceiver(mReceiver, filter); final IntentFilter packageFilter = new IntentFilter(); packageFilter.addAction(Intent.ACTION_PACKAGE_ADDED); packageFilter.addAction(Intent.ACTION_PACKAGE_REMOVED); packageFilter.addDataScheme(SCHEME_PACKAGE); registerReceiver(mDictionaryPackInstallReceiver, packageFilter); final IntentFilter newDictFilter = new IntentFilter(); newDictFilter.addAction( DictionaryPackInstallBroadcastReceiver.NEW_DICTIONARY_INTENT_ACTION); registerReceiver(mDictionaryPackInstallReceiver, newDictFilter); } // Has to be package-visible for unit tests /* package */ void loadSettings() { // Note that the calling sequence of onCreate() and onCurrentInputMethodSubtypeChanged() // is not guaranteed. It may even be called at the same time on a different thread. if (null == mPrefs) mPrefs = PreferenceManager.getDefaultSharedPreferences(this); final InputAttributes inputAttributes = new InputAttributes(getCurrentInputEditorInfo(), isFullscreenMode()); final RunInLocale job = new RunInLocale() { @Override protected SettingsValues job(Resources res) { return new SettingsValues(mPrefs, inputAttributes, LatinIME.this); } }; mCurrentSettings = job.runInLocale(mResources, mSubtypeSwitcher.getCurrentSubtypeLocale()); mFeedbackManager = new AudioAndHapticFeedbackManager(this, mCurrentSettings); resetContactsDictionary(null == mSuggest ? null : mSuggest.getContactsDictionary()); } private void initSuggest() { final Locale subtypeLocale = mSubtypeSwitcher.getCurrentSubtypeLocale(); final String localeStr = subtypeLocale.toString(); final ContactsBinaryDictionary oldContactsDictionary; if (mSuggest != null) { oldContactsDictionary = mSuggest.getContactsDictionary(); mSuggest.close(); } else { oldContactsDictionary = null; } mSuggest = new Suggest(this, subtypeLocale); if (mCurrentSettings.isCorrectionOn()) { mSuggest.setAutoCorrectionThreshold(mCurrentSettings.mAutoCorrectionThreshold); } mIsMainDictionaryAvailable = DictionaryFactory.isDictionaryAvailable(this, subtypeLocale); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.getInstance().initSuggest(mSuggest); } mUserDictionary = new UserBinaryDictionary(this, localeStr); mIsUserDictionaryAvailable = mUserDictionary.isEnabled(); mSuggest.setUserDictionary(mUserDictionary); resetContactsDictionary(oldContactsDictionary); // Note that the calling sequence of onCreate() and onCurrentInputMethodSubtypeChanged() // is not guaranteed. It may even be called at the same time on a different thread. if (null == mPrefs) mPrefs = PreferenceManager.getDefaultSharedPreferences(this); mUserHistoryDictionary = UserHistoryDictionary.getInstance( this, localeStr, Suggest.DIC_USER_HISTORY, mPrefs); mSuggest.setUserHistoryDictionary(mUserHistoryDictionary); } /** * Resets the contacts dictionary in mSuggest according to the user settings. * * This method takes an optional contacts dictionary to use when the locale hasn't changed * since the contacts dictionary can be opened or closed as necessary depending on the settings. * * @param oldContactsDictionary an optional dictionary to use, or null */ private void resetContactsDictionary(final ContactsBinaryDictionary oldContactsDictionary) { final boolean shouldSetDictionary = (null != mSuggest && mCurrentSettings.mUseContactsDict); final ContactsBinaryDictionary dictionaryToUse; if (!shouldSetDictionary) { // Make sure the dictionary is closed. If it is already closed, this is a no-op, // so it's safe to call it anyways. if (null != oldContactsDictionary) oldContactsDictionary.close(); dictionaryToUse = null; } else { final Locale locale = mSubtypeSwitcher.getCurrentSubtypeLocale(); if (null != oldContactsDictionary) { if (!oldContactsDictionary.mLocale.equals(locale)) { // If the locale has changed then recreate the contacts dictionary. This // allows locale dependent rules for handling bigram name predictions. oldContactsDictionary.close(); dictionaryToUse = new ContactsBinaryDictionary( this, Suggest.DIC_CONTACTS, locale); } else { // Make sure the old contacts dictionary is opened. If it is already open, // this is a no-op, so it's safe to call it anyways. oldContactsDictionary.reopen(this); dictionaryToUse = oldContactsDictionary; } } else { dictionaryToUse = new ContactsBinaryDictionary(this, Suggest.DIC_CONTACTS, locale); } } if (null != mSuggest) { mSuggest.setContactsDictionary(dictionaryToUse); } } /* package private */ void resetSuggestMainDict() { final Locale subtypeLocale = mSubtypeSwitcher.getCurrentSubtypeLocale(); mSuggest.resetMainDict(this, subtypeLocale); mIsMainDictionaryAvailable = DictionaryFactory.isDictionaryAvailable(this, subtypeLocale); } @Override public void onDestroy() { if (mSuggest != null) { mSuggest.close(); mSuggest = null; } unregisterReceiver(mReceiver); unregisterReceiver(mDictionaryPackInstallReceiver); LatinImeLogger.commit(); LatinImeLogger.onDestroy(); super.onDestroy(); } @Override public void onConfigurationChanged(Configuration conf) { mSubtypeSwitcher.onConfigurationChanged(conf); // If orientation changed while predicting, commit the change if (mDisplayOrientation != conf.orientation) { mDisplayOrientation = conf.orientation; mHandler.startOrientationChanging(); mConnection.beginBatchEdit(getCurrentInputConnection()); commitTyped(LastComposedWord.NOT_A_SEPARATOR); mConnection.finishComposingText(); mConnection.endBatchEdit(); if (isShowingOptionDialog()) mOptionsDialog.dismiss(); } super.onConfigurationChanged(conf); } @Override public View onCreateInputView() { return mKeyboardSwitcher.onCreateInputView(); } @Override public void setInputView(View view) { super.setInputView(view); mExtractArea = getWindow().getWindow().getDecorView() .findViewById(android.R.id.extractArea); mKeyPreviewBackingView = view.findViewById(R.id.key_preview_backing); mSuggestionsContainer = view.findViewById(R.id.suggestions_container); mSuggestionsView = (SuggestionsView) view.findViewById(R.id.suggestions_view); if (mSuggestionsView != null) mSuggestionsView.setListener(this, view); if (LatinImeLogger.sVISUALDEBUG) { mKeyPreviewBackingView.setBackgroundColor(0x10FF0000); } } @Override public void setCandidatesView(View view) { // To ensure that CandidatesView will never be set. return; } @Override public void onStartInput(EditorInfo editorInfo, boolean restarting) { mHandler.onStartInput(editorInfo, restarting); } @Override public void onStartInputView(EditorInfo editorInfo, boolean restarting) { mHandler.onStartInputView(editorInfo, restarting); } @Override public void onFinishInputView(boolean finishingInput) { mHandler.onFinishInputView(finishingInput); } @Override public void onFinishInput() { mHandler.onFinishInput(); } @Override public void onCurrentInputMethodSubtypeChanged(InputMethodSubtype subtype) { // Note that the calling sequence of onCreate() and onCurrentInputMethodSubtypeChanged() // is not guaranteed. It may even be called at the same time on a different thread. mSubtypeSwitcher.updateSubtype(subtype); } private void onStartInputInternal(EditorInfo editorInfo, boolean restarting) { super.onStartInput(editorInfo, restarting); } @SuppressWarnings("deprecation") private void onStartInputViewInternal(EditorInfo editorInfo, boolean restarting) { super.onStartInputView(editorInfo, restarting); final KeyboardSwitcher switcher = mKeyboardSwitcher; LatinKeyboardView inputView = switcher.getKeyboardView(); if (editorInfo == null) { Log.e(TAG, "Null EditorInfo in onStartInputView()"); if (LatinImeLogger.sDBG) { throw new NullPointerException("Null EditorInfo in onStartInputView()"); } return; } if (DEBUG) { Log.d(TAG, "onStartInputView: editorInfo:" + String.format("inputType=0x%08x imeOptions=0x%08x", editorInfo.inputType, editorInfo.imeOptions)); Log.d(TAG, "All caps = " + ((editorInfo.inputType & InputType.TYPE_TEXT_FLAG_CAP_CHARACTERS) != 0) + ", sentence caps = " + ((editorInfo.inputType & InputType.TYPE_TEXT_FLAG_CAP_SENTENCES) != 0) + ", word caps = " + ((editorInfo.inputType & InputType.TYPE_TEXT_FLAG_CAP_WORDS) != 0)); } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.getInstance().start(); ResearchLogger.latinIME_onStartInputViewInternal(editorInfo, mPrefs); } if (InputAttributes.inPrivateImeOptions(null, NO_MICROPHONE_COMPAT, editorInfo)) { Log.w(TAG, "Deprecated private IME option specified: " + editorInfo.privateImeOptions); Log.w(TAG, "Use " + getPackageName() + "." + NO_MICROPHONE + " instead"); } if (InputAttributes.inPrivateImeOptions(getPackageName(), FORCE_ASCII, editorInfo)) { Log.w(TAG, "Deprecated private IME option specified: " + editorInfo.privateImeOptions); Log.w(TAG, "Use EditorInfo.IME_FLAG_FORCE_ASCII flag instead"); } mTargetApplicationInfo = TargetApplicationGetter.getCachedApplicationInfo(editorInfo.packageName); if (null == mTargetApplicationInfo) { new TargetApplicationGetter(this /* context */, this /* listener */) .execute(editorInfo.packageName); } LatinImeLogger.onStartInputView(editorInfo); // In landscape mode, this method gets called without the input view being created. if (inputView == null) { return; } // Forward this event to the accessibility utilities, if enabled. final AccessibilityUtils accessUtils = AccessibilityUtils.getInstance(); if (accessUtils.isTouchExplorationEnabled()) { accessUtils.onStartInputViewInternal(editorInfo, restarting); } mSubtypeSwitcher.updateParametersOnStartInputView(); // The EditorInfo might have a flag that affects fullscreen mode. // Note: This call should be done by InputMethodService? updateFullscreenMode(); mLastSelectionStart = editorInfo.initialSelStart; mLastSelectionEnd = editorInfo.initialSelEnd; mApplicationSpecifiedCompletions = null; inputView.closing(); mEnteredText = null; resetComposingState(true /* alsoResetLastComposedWord */); mDeleteCount = 0; mSpaceState = SPACE_STATE_NONE; loadSettings(); if (mSuggest != null && mCurrentSettings.isCorrectionOn()) { mSuggest.setAutoCorrectionThreshold(mCurrentSettings.mAutoCorrectionThreshold); } switcher.loadKeyboard(editorInfo, mCurrentSettings); if (mSuggestionsView != null) mSuggestionsView.clear(); setSuggestionStripShownInternal( isSuggestionsStripVisible(), /* needsInputViewShown */ false); // Delay updating suggestions because keyboard input view may not be shown at this point. mHandler.postUpdateSuggestions(); mHandler.cancelDoubleSpacesTimer(); inputView.setKeyPreviewPopupEnabled(mCurrentSettings.mKeyPreviewPopupOn, mCurrentSettings.mKeyPreviewPopupDismissDelay); inputView.setProximityCorrectionEnabled(true); if (TRACE) Debug.startMethodTracing("/data/trace/latinime"); } @Override public void onTargetApplicationKnown(final ApplicationInfo info) { mTargetApplicationInfo = info; } @Override public void onWindowHidden() { if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_onWindowHidden(mLastSelectionStart, mLastSelectionEnd, getCurrentInputConnection()); } super.onWindowHidden(); KeyboardView inputView = mKeyboardSwitcher.getKeyboardView(); if (inputView != null) inputView.closing(); } private void onFinishInputInternal() { super.onFinishInput(); LatinImeLogger.commit(); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.getInstance().stop(); } KeyboardView inputView = mKeyboardSwitcher.getKeyboardView(); if (inputView != null) inputView.closing(); } private void onFinishInputViewInternal(boolean finishingInput) { super.onFinishInputView(finishingInput); mKeyboardSwitcher.onFinishInputView(); KeyboardView inputView = mKeyboardSwitcher.getKeyboardView(); if (inputView != null) inputView.cancelAllMessages(); // Remove pending messages related to update suggestions mHandler.cancelUpdateSuggestions(); } @Override public void onUpdateSelection(int oldSelStart, int oldSelEnd, int newSelStart, int newSelEnd, int composingSpanStart, int composingSpanEnd) { super.onUpdateSelection(oldSelStart, oldSelEnd, newSelStart, newSelEnd, composingSpanStart, composingSpanEnd); if (DEBUG) { Log.i(TAG, "onUpdateSelection: oss=" + oldSelStart + ", ose=" + oldSelEnd + ", lss=" + mLastSelectionStart + ", lse=" + mLastSelectionEnd + ", nss=" + newSelStart + ", nse=" + newSelEnd + ", cs=" + composingSpanStart + ", ce=" + composingSpanEnd); } if (ProductionFlag.IS_EXPERIMENTAL) { final boolean expectingUpdateSelectionFromLogger = ResearchLogger.getAndClearLatinIMEExpectingUpdateSelection(); ResearchLogger.latinIME_onUpdateSelection(mLastSelectionStart, mLastSelectionEnd, oldSelStart, oldSelEnd, newSelStart, newSelEnd, composingSpanStart, composingSpanEnd, mExpectingUpdateSelection, expectingUpdateSelectionFromLogger, mConnection); if (expectingUpdateSelectionFromLogger) { // TODO: Investigate. Quitting now sounds wrong - we won't do the resetting work return; } } // TODO: refactor the following code to be less contrived. // "newSelStart != composingSpanEnd" || "newSelEnd != composingSpanEnd" means // that the cursor is not at the end of the composing span, or there is a selection. // "mLastSelectionStart != newSelStart" means that the cursor is not in the same place // as last time we were called (if there is a selection, it means the start hasn't // changed, so it's the end that did). final boolean selectionChanged = (newSelStart != composingSpanEnd || newSelEnd != composingSpanEnd) && mLastSelectionStart != newSelStart; // if composingSpanStart and composingSpanEnd are -1, it means there is no composing // span in the view - we can use that to narrow down whether the cursor was moved // by us or not. If we are composing a word but there is no composing span, then // we know for sure the cursor moved while we were composing and we should reset // the state. final boolean noComposingSpan = composingSpanStart == -1 && composingSpanEnd == -1; if (!mExpectingUpdateSelection) { // TAKE CARE: there is a race condition when we enter this test even when the user // did not explicitly move the cursor. This happens when typing fast, where two keys // turn this flag on in succession and both onUpdateSelection() calls arrive after // the second one - the first call successfully avoids this test, but the second one // enters. For the moment we rely on noComposingSpan to further reduce the impact. // TODO: the following is probably better done in resetEntireInputState(). // it should only happen when the cursor moved, and the very purpose of the // test below is to narrow down whether this happened or not. Likewise with // the call to postUpdateShiftState. // We set this to NONE because after a cursor move, we don't want the space // state-related special processing to kick in. mSpaceState = SPACE_STATE_NONE; if ((!mWordComposer.isComposingWord()) || selectionChanged || noComposingSpan) { resetEntireInputState(); } mHandler.postUpdateShiftState(); } mExpectingUpdateSelection = false; // TODO: Decide to call restartSuggestionsOnWordBeforeCursorIfAtEndOfWord() or not // here. It would probably be too expensive to call directly here but we may want to post a // message to delay it. The point would be to unify behavior between backspace to the // end of a word and manually put the pointer at the end of the word. // Make a note of the cursor position mLastSelectionStart = newSelStart; mLastSelectionEnd = newSelEnd; } /** * This is called when the user has clicked on the extracted text view, * when running in fullscreen mode. The default implementation hides * the suggestions 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 suggestions strip to disappear and re-appear. */ @Override public void onExtractedTextClicked() { if (mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)) 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 suggestions 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 suggestions strip to disappear and re-appear. */ @Override public void onExtractedCursorMovement(int dx, int dy) { if (mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)) return; super.onExtractedCursorMovement(dx, dy); } @Override public void hideWindow() { LatinImeLogger.commit(); mKeyboardSwitcher.onHideWindow(); if (TRACE) Debug.stopMethodTracing(); if (mOptionsDialog != null && mOptionsDialog.isShowing()) { mOptionsDialog.dismiss(); mOptionsDialog = null; } super.hideWindow(); } @Override public void onDisplayCompletions(CompletionInfo[] applicationSpecifiedCompletions) { if (DEBUG) { Log.i(TAG, "Received completions:"); if (applicationSpecifiedCompletions != null) { for (int i = 0; i < applicationSpecifiedCompletions.length; i++) { Log.i(TAG, " #" + i + ": " + applicationSpecifiedCompletions[i]); } } } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_onDisplayCompletions(applicationSpecifiedCompletions); } if (!mCurrentSettings.isApplicationSpecifiedCompletionsOn()) return; mApplicationSpecifiedCompletions = applicationSpecifiedCompletions; if (applicationSpecifiedCompletions == null) { clearSuggestions(); return; } final ArrayList applicationSuggestedWords = SuggestedWords.getFromApplicationSpecifiedCompletions( applicationSpecifiedCompletions); final SuggestedWords suggestedWords = new SuggestedWords( applicationSuggestedWords, false /* typedWordValid */, false /* hasAutoCorrectionCandidate */, false /* allowsToBeAutoCorrected */, false /* isPunctuationSuggestions */, false /* isObsoleteSuggestions */, false /* isPrediction */); // When in fullscreen mode, show completions generated by the application final boolean isAutoCorrection = false; setSuggestions(suggestedWords, isAutoCorrection); setAutoCorrectionIndicator(isAutoCorrection); // TODO: is this the right thing to do? What should we auto-correct to in // this case? This says to keep whatever the user typed. mWordComposer.setAutoCorrection(mWordComposer.getTypedWord()); setSuggestionStripShown(true); } private void setSuggestionStripShownInternal(boolean shown, boolean needsInputViewShown) { // TODO: Modify this if we support suggestions with hard keyboard if (onEvaluateInputViewShown() && mSuggestionsContainer != null) { final LatinKeyboardView keyboardView = mKeyboardSwitcher.getKeyboardView(); final boolean inputViewShown = (keyboardView != null) ? keyboardView.isShown() : false; final boolean shouldShowSuggestions = shown && (needsInputViewShown ? inputViewShown : true); if (isFullscreenMode()) { mSuggestionsContainer.setVisibility( shouldShowSuggestions ? View.VISIBLE : View.GONE); } else { mSuggestionsContainer.setVisibility( shouldShowSuggestions ? View.VISIBLE : View.INVISIBLE); } } } private void setSuggestionStripShown(boolean shown) { setSuggestionStripShownInternal(shown, /* needsInputViewShown */true); } private int getAdjustedBackingViewHeight() { final int currentHeight = mKeyPreviewBackingView.getHeight(); if (currentHeight > 0) { return currentHeight; } final KeyboardView keyboardView = mKeyboardSwitcher.getKeyboardView(); if (keyboardView == null) { return 0; } final int keyboardHeight = keyboardView.getHeight(); final int suggestionsHeight = mSuggestionsContainer.getHeight(); final int displayHeight = mResources.getDisplayMetrics().heightPixels; final Rect rect = new Rect(); mKeyPreviewBackingView.getWindowVisibleDisplayFrame(rect); final int notificationBarHeight = rect.top; final int remainingHeight = displayHeight - notificationBarHeight - suggestionsHeight - keyboardHeight; final LayoutParams params = mKeyPreviewBackingView.getLayoutParams(); params.height = mSuggestionsView.setMoreSuggestionsHeight(remainingHeight); mKeyPreviewBackingView.setLayoutParams(params); return params.height; } @Override public void onComputeInsets(InputMethodService.Insets outInsets) { super.onComputeInsets(outInsets); final KeyboardView inputView = mKeyboardSwitcher.getKeyboardView(); if (inputView == null || mSuggestionsContainer == null) return; final int adjustedBackingHeight = getAdjustedBackingViewHeight(); final boolean backingGone = (mKeyPreviewBackingView.getVisibility() == View.GONE); final int backingHeight = backingGone ? 0 : adjustedBackingHeight; // In fullscreen mode, the height of the extract area managed by InputMethodService should // be considered. // See {@link android.inputmethodservice.InputMethodService#onComputeInsets}. final int extractHeight = isFullscreenMode() ? mExtractArea.getHeight() : 0; final int suggestionsHeight = (mSuggestionsContainer.getVisibility() == View.GONE) ? 0 : mSuggestionsContainer.getHeight(); final int extraHeight = extractHeight + backingHeight + suggestionsHeight; int touchY = extraHeight; // Need to set touchable region only if input view is being shown final LatinKeyboardView keyboardView = mKeyboardSwitcher.getKeyboardView(); if (keyboardView != null && keyboardView.isShown()) { if (mSuggestionsContainer.getVisibility() == View.VISIBLE) { touchY -= suggestionsHeight; } final int touchWidth = inputView.getWidth(); final int touchHeight = inputView.getHeight() + extraHeight // Extend touchable region below the keyboard. + EXTENDED_TOUCHABLE_REGION_HEIGHT; outInsets.touchableInsets = InputMethodService.Insets.TOUCHABLE_INSETS_REGION; outInsets.touchableRegion.set(0, touchY, touchWidth, touchHeight); } outInsets.contentTopInsets = touchY; outInsets.visibleTopInsets = touchY; } @Override public boolean onEvaluateFullscreenMode() { // Reread resource value here, because this method is called by framework anytime as needed. final boolean isFullscreenModeAllowed = mCurrentSettings.isFullscreenModeAllowed(getResources()); return super.onEvaluateFullscreenMode() && isFullscreenModeAllowed; } @Override public void updateFullscreenMode() { super.updateFullscreenMode(); if (mKeyPreviewBackingView == null) return; // In fullscreen mode, no need to have extra space to show the key preview. // If not, we should have extra space above the keyboard to show the key preview. mKeyPreviewBackingView.setVisibility(isFullscreenMode() ? View.GONE : View.VISIBLE); } // This will reset the whole input state to the starting state. It will clear // the composing word, reset the last composed word, tell the inputconnection // and the composingStateManager about it. private void resetEntireInputState() { resetComposingState(true /* alsoResetLastComposedWord */); updateSuggestions(); mConnection.finishComposingText(); } private void resetComposingState(final boolean alsoResetLastComposedWord) { mWordComposer.reset(); if (alsoResetLastComposedWord) mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD; } public void commitTyped(final int separatorCode) { if (!mWordComposer.isComposingWord()) return; final CharSequence typedWord = mWordComposer.getTypedWord(); if (typedWord.length() > 0) { mConnection.commitText(typedWord, 1); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_commitText(typedWord); } final CharSequence prevWord = addToUserHistoryDictionary(typedWord); mLastComposedWord = mWordComposer.commitWord( LastComposedWord.COMMIT_TYPE_USER_TYPED_WORD, typedWord.toString(), separatorCode, prevWord); } updateSuggestions(); } public int getCurrentAutoCapsState() { if (!mCurrentSettings.mAutoCap) return Constants.TextUtils.CAP_MODE_OFF; final EditorInfo ei = getCurrentInputEditorInfo(); if (ei == null) return Constants.TextUtils.CAP_MODE_OFF; final int inputType = ei.inputType; if ((inputType & InputType.TYPE_TEXT_FLAG_CAP_CHARACTERS) != 0) { return TextUtils.CAP_MODE_CHARACTERS; } final boolean noNeedToCheckCapsMode = (inputType & (InputType.TYPE_TEXT_FLAG_CAP_SENTENCES | InputType.TYPE_TEXT_FLAG_CAP_WORDS)) == 0; if (noNeedToCheckCapsMode) return Constants.TextUtils.CAP_MODE_OFF; // Avoid making heavy round-trip IPC calls of {@link InputConnection#getCursorCapsMode} // unless needed. if (mWordComposer.isComposingWord()) return Constants.TextUtils.CAP_MODE_OFF; // TODO: This blocking IPC call is heavy. Consider doing this without using IPC calls. // Note: getCursorCapsMode() returns the current capitalization mode that is any // combination of CAP_MODE_CHARACTERS, CAP_MODE_WORDS, and CAP_MODE_SENTENCES. 0 means none // of them. return mConnection.getCursorCapsMode(inputType); } private void swapSwapperAndSpace() { CharSequence lastTwo = mConnection.getTextBeforeCursor(2, 0); // It is guaranteed lastTwo.charAt(1) is a swapper - else this method is not called. if (lastTwo != null && lastTwo.length() == 2 && lastTwo.charAt(0) == Keyboard.CODE_SPACE) { mConnection.deleteSurroundingText(2, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(2); } mConnection.commitText(lastTwo.charAt(1) + " ", 1); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_swapSwapperAndSpaceWhileInBatchEdit(); } mKeyboardSwitcher.updateShiftState(); } } private boolean maybeDoubleSpace() { if (!mCurrentSettings.mCorrectionEnabled) return false; if (!mHandler.isAcceptingDoubleSpaces()) return false; final CharSequence lastThree = mConnection.getTextBeforeCursor(3, 0); if (lastThree != null && lastThree.length() == 3 && canBeFollowedByPeriod(lastThree.charAt(0)) && lastThree.charAt(1) == Keyboard.CODE_SPACE && lastThree.charAt(2) == Keyboard.CODE_SPACE) { mHandler.cancelDoubleSpacesTimer(); mConnection.deleteSurroundingText(2, 0); mConnection.commitText(". ", 1); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_doubleSpaceAutoPeriod(); } mKeyboardSwitcher.updateShiftState(); return true; } return false; } private static boolean canBeFollowedByPeriod(final int codePoint) { // TODO: Check again whether there really ain't a better way to check this. // TODO: This should probably be language-dependant... return Character.isLetterOrDigit(codePoint) || codePoint == Keyboard.CODE_SINGLE_QUOTE || codePoint == Keyboard.CODE_DOUBLE_QUOTE || codePoint == Keyboard.CODE_CLOSING_PARENTHESIS || codePoint == Keyboard.CODE_CLOSING_SQUARE_BRACKET || codePoint == Keyboard.CODE_CLOSING_CURLY_BRACKET || codePoint == Keyboard.CODE_CLOSING_ANGLE_BRACKET; } @Override public boolean addWordToDictionary(String word) { mUserDictionary.addWordToUserDictionary(word, 128); // Suggestion strip should be updated after the operation of adding word to the // user dictionary mHandler.postUpdateSuggestions(); return true; } private static boolean isAlphabet(int code) { return Character.isLetter(code); } private void onSettingsKeyPressed() { if (isShowingOptionDialog()) return; showSubtypeSelectorAndSettings(); } // Virtual codes representing custom requests. These are used in onCustomRequest() below. public static final int CODE_SHOW_INPUT_METHOD_PICKER = 1; @Override public boolean onCustomRequest(int requestCode) { if (isShowingOptionDialog()) return false; switch (requestCode) { case CODE_SHOW_INPUT_METHOD_PICKER: if (ImfUtils.hasMultipleEnabledIMEsOrSubtypes( this, true /* include aux subtypes */)) { mImm.showInputMethodPicker(); return true; } return false; } return false; } private boolean isShowingOptionDialog() { return mOptionsDialog != null && mOptionsDialog.isShowing(); } private static int getActionId(Keyboard keyboard) { return keyboard != null ? keyboard.mId.imeActionId() : EditorInfo.IME_ACTION_NONE; } private void performEditorAction(int actionId) { mConnection.performEditorAction(actionId); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_performEditorAction(actionId); } } private void handleLanguageSwitchKey() { final boolean includesOtherImes = mCurrentSettings.mIncludesOtherImesInLanguageSwitchList; final IBinder token = getWindow().getWindow().getAttributes().token; if (mShouldSwitchToLastSubtype) { final InputMethodSubtype lastSubtype = mImm.getLastInputMethodSubtype(); final boolean lastSubtypeBelongsToThisIme = ImfUtils.checkIfSubtypeBelongsToThisImeAndEnabled(this, lastSubtype); if ((includesOtherImes || lastSubtypeBelongsToThisIme) && mImm.switchToLastInputMethod(token)) { mShouldSwitchToLastSubtype = false; } else { mImm.switchToNextInputMethod(token, !includesOtherImes); mShouldSwitchToLastSubtype = true; } } else { mImm.switchToNextInputMethod(token, !includesOtherImes); } } private void sendUpDownEnterOrBackspace(final int code) { final long eventTime = SystemClock.uptimeMillis(); mConnection.sendKeyEvent(new KeyEvent(eventTime, eventTime, KeyEvent.ACTION_DOWN, code, 0, 0, KeyCharacterMap.VIRTUAL_KEYBOARD, 0, KeyEvent.FLAG_SOFT_KEYBOARD | KeyEvent.FLAG_KEEP_TOUCH_MODE)); mConnection.sendKeyEvent(new KeyEvent(SystemClock.uptimeMillis(), eventTime, KeyEvent.ACTION_UP, code, 0, 0, KeyCharacterMap.VIRTUAL_KEYBOARD, 0, KeyEvent.FLAG_SOFT_KEYBOARD | KeyEvent.FLAG_KEEP_TOUCH_MODE)); } private void sendKeyCodePoint(int code) { // TODO: Remove this special handling of digit letters. // For backward compatibility. See {@link InputMethodService#sendKeyChar(char)}. if (code >= '0' && code <= '9') { super.sendKeyChar((char)code); return; } // 16 is android.os.Build.VERSION_CODES.JELLY_BEAN but we can't write it because // we want to be able to compile against the Ice Cream Sandwich SDK. if (Keyboard.CODE_ENTER == code && mTargetApplicationInfo != null && mTargetApplicationInfo.targetSdkVersion < 16) { // Backward compatibility mode. Before Jelly bean, the keyboard would simulate // a hardware keyboard event on pressing enter or delete. This is bad for many // reasons (there are race conditions with commits) but some applications are // relying on this behavior so we continue to support it for older apps. sendUpDownEnterOrBackspace(KeyEvent.KEYCODE_ENTER); } else { final String text = new String(new int[] { code }, 0, 1); mConnection.commitText(text, text.length()); } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_sendKeyCodePoint(code); } } // Implementation of {@link KeyboardActionListener}. @Override public void onCodeInput(int primaryCode, int x, int y) { final long when = SystemClock.uptimeMillis(); if (primaryCode != Keyboard.CODE_DELETE || when > mLastKeyTime + QUICK_PRESS) { mDeleteCount = 0; } mLastKeyTime = when; mConnection.beginBatchEdit(getCurrentInputConnection()); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_onCodeInput(primaryCode, x, y); } final KeyboardSwitcher switcher = mKeyboardSwitcher; // The space state depends only on the last character pressed and its own previous // state. Here, we revert the space state to neutral if the key is actually modifying // the input contents (any non-shift key), which is what we should do for // all inputs that do not result in a special state. Each character handling is then // free to override the state as they see fit. final int spaceState = mSpaceState; if (!mWordComposer.isComposingWord()) mIsAutoCorrectionIndicatorOn = false; // TODO: Consolidate the double space timer, mLastKeyTime, and the space state. if (primaryCode != Keyboard.CODE_SPACE) { mHandler.cancelDoubleSpacesTimer(); } boolean didAutoCorrect = false; switch (primaryCode) { case Keyboard.CODE_DELETE: mSpaceState = SPACE_STATE_NONE; handleBackspace(spaceState); mDeleteCount++; mExpectingUpdateSelection = true; mShouldSwitchToLastSubtype = true; LatinImeLogger.logOnDelete(x, y); break; case Keyboard.CODE_SHIFT: case Keyboard.CODE_SWITCH_ALPHA_SYMBOL: // Shift and symbol key is handled in onPressKey() and onReleaseKey(). break; case Keyboard.CODE_SETTINGS: onSettingsKeyPressed(); break; case Keyboard.CODE_SHORTCUT: mSubtypeSwitcher.switchToShortcutIME(); break; case Keyboard.CODE_ACTION_ENTER: performEditorAction(getActionId(switcher.getKeyboard())); break; case Keyboard.CODE_ACTION_NEXT: performEditorAction(EditorInfo.IME_ACTION_NEXT); break; case Keyboard.CODE_ACTION_PREVIOUS: performEditorAction(EditorInfo.IME_ACTION_PREVIOUS); break; case Keyboard.CODE_LANGUAGE_SWITCH: handleLanguageSwitchKey(); break; case Keyboard.CODE_RESEARCH: if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.getInstance().presentResearchDialog(this); } break; default: if (primaryCode == Keyboard.CODE_TAB && mCurrentSettings.isEditorActionNext()) { performEditorAction(EditorInfo.IME_ACTION_NEXT); break; } mSpaceState = SPACE_STATE_NONE; if (mCurrentSettings.isWordSeparator(primaryCode)) { didAutoCorrect = handleSeparator(primaryCode, x, y, spaceState); } else { final Keyboard keyboard = mKeyboardSwitcher.getKeyboard(); if (keyboard != null && keyboard.hasProximityCharsCorrection(primaryCode)) { handleCharacter(primaryCode, x, y, spaceState); } else { handleCharacter(primaryCode, NOT_A_TOUCH_COORDINATE, NOT_A_TOUCH_COORDINATE, spaceState); } } mExpectingUpdateSelection = true; mShouldSwitchToLastSubtype = true; break; } switcher.onCodeInput(primaryCode); // Reset after any single keystroke, except shift and symbol-shift if (!didAutoCorrect && primaryCode != Keyboard.CODE_SHIFT && primaryCode != Keyboard.CODE_SWITCH_ALPHA_SYMBOL) mLastComposedWord.deactivate(); mEnteredText = null; mConnection.endBatchEdit(); } @Override public void onTextInput(CharSequence text) { mConnection.beginBatchEdit(getCurrentInputConnection()); commitTyped(LastComposedWord.NOT_A_SEPARATOR); text = specificTldProcessingOnTextInput(text); if (SPACE_STATE_PHANTOM == mSpaceState) { sendKeyCodePoint(Keyboard.CODE_SPACE); } mConnection.commitText(text, 1); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_commitText(text); } mConnection.endBatchEdit(); mKeyboardSwitcher.updateShiftState(); mKeyboardSwitcher.onCodeInput(Keyboard.CODE_OUTPUT_TEXT); mSpaceState = SPACE_STATE_NONE; mEnteredText = text; resetComposingState(true /* alsoResetLastComposedWord */); } private CharSequence specificTldProcessingOnTextInput(final CharSequence text) { if (text.length() <= 1 || text.charAt(0) != Keyboard.CODE_PERIOD || !Character.isLetter(text.charAt(1))) { // Not a tld: do nothing. return text; } // We have a TLD (or something that looks like this): make sure we don't add // a space even if currently in phantom mode. mSpaceState = SPACE_STATE_NONE; final CharSequence lastOne = mConnection.getTextBeforeCursor(1, 0); if (lastOne != null && lastOne.length() == 1 && lastOne.charAt(0) == Keyboard.CODE_PERIOD) { return text.subSequence(1, text.length()); } else { return text; } } @Override public void onCancelInput() { // User released a finger outside any key mKeyboardSwitcher.onCancelInput(); } private void handleBackspace(final int spaceState) { // In many cases, we may have to put the keyboard in auto-shift state again. mHandler.postUpdateShiftState(); if (mEnteredText != null && mConnection.sameAsTextBeforeCursor(mEnteredText)) { // Cancel multi-character input: remove the text we just entered. // This is triggered on backspace after a key that inputs multiple characters, // like the smiley key or the .com key. final int length = mEnteredText.length(); mConnection.deleteSurroundingText(length, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(length); } // If we have mEnteredText, then we know that mHasUncommittedTypedChars == false. // In addition we know that spaceState is false, and that we should not be // reverting any autocorrect at this point. So we can safely return. return; } if (mWordComposer.isComposingWord()) { final int length = mWordComposer.size(); if (length > 0) { mWordComposer.deleteLast(); mConnection.setComposingText(getTextWithUnderline(mWordComposer.getTypedWord()), 1); // If we have deleted the last remaining character of a word, then we are not // isComposingWord() any more. if (!mWordComposer.isComposingWord()) { // Not composing word any more, so we can show bigrams. mHandler.postUpdateBigramPredictions(); } else { // Still composing a word, so we still have letters to deduce a suggestion from. mHandler.postUpdateSuggestions(); } } else { mConnection.deleteSurroundingText(1, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(1); } } } else { if (mLastComposedWord.canRevertCommit()) { Utils.Stats.onAutoCorrectionCancellation(); revertCommit(); return; } if (SPACE_STATE_DOUBLE == spaceState) { mHandler.cancelDoubleSpacesTimer(); if (mConnection.revertDoubleSpace()) { // No need to reset mSpaceState, it has already be done (that's why we // receive it as a parameter) return; } } else if (SPACE_STATE_SWAP_PUNCTUATION == spaceState) { if (mConnection.revertSwapPunctuation()) { // Likewise return; } } // No cancelling of commit/double space/swap: we have a regular backspace. // We should backspace one char and restart suggestion if at the end of a word. if (mLastSelectionStart != mLastSelectionEnd) { // If there is a selection, remove it. final int lengthToDelete = mLastSelectionEnd - mLastSelectionStart; mConnection.setSelection(mLastSelectionEnd, mLastSelectionEnd); mConnection.deleteSurroundingText(lengthToDelete, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(lengthToDelete); } } else { // There is no selection, just delete one character. if (NOT_A_CURSOR_POSITION == mLastSelectionEnd) { // This should never happen. Log.e(TAG, "Backspace when we don't know the selection position"); } // 16 is android.os.Build.VERSION_CODES.JELLY_BEAN but we can't write it because // we want to be able to compile against the Ice Cream Sandwich SDK. if (mTargetApplicationInfo != null && mTargetApplicationInfo.targetSdkVersion < 16) { // Backward compatibility mode. Before Jelly bean, the keyboard would simulate // a hardware keyboard event on pressing enter or delete. This is bad for many // reasons (there are race conditions with commits) but some applications are // relying on this behavior so we continue to support it for older apps. sendUpDownEnterOrBackspace(KeyEvent.KEYCODE_DEL); } else { mConnection.deleteSurroundingText(1, 0); } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(1); } if (mDeleteCount > DELETE_ACCELERATE_AT) { mConnection.deleteSurroundingText(1, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(1); } } } if (mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)) { restartSuggestionsOnWordBeforeCursorIfAtEndOfWord(); } } } private boolean maybeStripSpace(final int code, final int spaceState, final boolean isFromSuggestionStrip) { if (Keyboard.CODE_ENTER == code && SPACE_STATE_SWAP_PUNCTUATION == spaceState) { mConnection.removeTrailingSpace(); return false; } else if ((SPACE_STATE_WEAK == spaceState || SPACE_STATE_SWAP_PUNCTUATION == spaceState) && isFromSuggestionStrip) { if (mCurrentSettings.isWeakSpaceSwapper(code)) { return true; } else { if (mCurrentSettings.isWeakSpaceStripper(code)) { mConnection.removeTrailingSpace(); } return false; } } else { return false; } } private void handleCharacter(final int primaryCode, final int x, final int y, final int spaceState) { boolean isComposingWord = mWordComposer.isComposingWord(); if (SPACE_STATE_PHANTOM == spaceState && !mCurrentSettings.isSymbolExcludedFromWordSeparators(primaryCode)) { if (isComposingWord) { // Sanity check throw new RuntimeException("Should not be composing here"); } sendKeyCodePoint(Keyboard.CODE_SPACE); } // NOTE: isCursorTouchingWord() is a blocking IPC call, so it often takes several // dozen milliseconds. Avoid calling it as much as possible, since we are on the UI // thread here. if (!isComposingWord && (isAlphabet(primaryCode) || mCurrentSettings.isSymbolExcludedFromWordSeparators(primaryCode)) && mCurrentSettings.isSuggestionsRequested(mDisplayOrientation) && !mConnection.isCursorTouchingWord(mCurrentSettings)) { // Reset entirely the composing state anyway, then start composing a new word unless // the character is a single quote. The idea here is, single quote is not a // separator and it should be treated as a normal character, except in the first // position where it should not start composing a word. isComposingWord = (Keyboard.CODE_SINGLE_QUOTE != primaryCode); // Here we don't need to reset the last composed word. It will be reset // when we commit this one, if we ever do; if on the other hand we backspace // it entirely and resume suggestions on the previous word, we'd like to still // have touch coordinates for it. resetComposingState(false /* alsoResetLastComposedWord */); clearSuggestions(); } if (isComposingWord) { mWordComposer.add( primaryCode, x, y, mKeyboardSwitcher.getKeyboardView().getKeyDetector()); // If it's the first letter, make note of auto-caps state if (mWordComposer.size() == 1) { mWordComposer.setAutoCapitalized( getCurrentAutoCapsState() != Constants.TextUtils.CAP_MODE_OFF); } mConnection.setComposingText(getTextWithUnderline(mWordComposer.getTypedWord()), 1); mHandler.postUpdateSuggestions(); } else { final boolean swapWeakSpace = maybeStripSpace(primaryCode, spaceState, KeyboardActionListener.SUGGESTION_STRIP_COORDINATE == x); sendKeyCodePoint(primaryCode); if (swapWeakSpace) { swapSwapperAndSpace(); mSpaceState = SPACE_STATE_WEAK; } // Some characters are not word separators, yet they don't start a new // composing span. For these, we haven't changed the suggestion strip, and // if the "add to dictionary" hint is shown, we should do so now. Examples of // such characters include single quote, dollar, and others; the exact list is // the list of characters for which we enter handleCharacterWhileInBatchEdit // that don't match the test if ((isAlphabet...)) at the top of this method. if (null != mSuggestionsView && mSuggestionsView.dismissAddToDictionaryHint()) { mHandler.postUpdateBigramPredictions(); } } Utils.Stats.onNonSeparator((char)primaryCode, x, y); } // Returns true if we did an autocorrection, false otherwise. private boolean handleSeparator(final int primaryCode, final int x, final int y, final int spaceState) { // Should dismiss the "Touch again to save" message when handling separator if (mSuggestionsView != null && mSuggestionsView.dismissAddToDictionaryHint()) { mHandler.cancelUpdateBigramPredictions(); mHandler.postUpdateSuggestions(); } boolean didAutoCorrect = false; // Handle separator if (mWordComposer.isComposingWord()) { // 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. final boolean shouldAutoCorrect = mCurrentSettings.isCorrectionOn(); if (shouldAutoCorrect && primaryCode != Keyboard.CODE_SINGLE_QUOTE) { commitCurrentAutoCorrection(primaryCode); didAutoCorrect = true; } else { commitTyped(primaryCode); } } final boolean swapWeakSpace = maybeStripSpace(primaryCode, spaceState, KeyboardActionListener.SUGGESTION_STRIP_COORDINATE == x); if (SPACE_STATE_PHANTOM == spaceState && mCurrentSettings.isPhantomSpacePromotingSymbol(primaryCode)) { sendKeyCodePoint(Keyboard.CODE_SPACE); } sendKeyCodePoint(primaryCode); if (Keyboard.CODE_SPACE == primaryCode) { if (mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)) { if (maybeDoubleSpace()) { mSpaceState = SPACE_STATE_DOUBLE; } else if (!isShowingPunctuationList()) { mSpaceState = SPACE_STATE_WEAK; } } mHandler.startDoubleSpacesTimer(); if (!mConnection.isCursorTouchingWord(mCurrentSettings)) { mHandler.cancelUpdateSuggestions(); mHandler.postUpdateBigramPredictions(); } } else { if (swapWeakSpace) { swapSwapperAndSpace(); mSpaceState = SPACE_STATE_SWAP_PUNCTUATION; } else if (SPACE_STATE_PHANTOM == spaceState) { // If we are in phantom space state, and the user presses a separator, we want to // stay in phantom space state so that the next keypress has a chance to add the // space. For example, if I type "Good dat", pick "day" from the suggestion strip // then insert a comma and go on to typing the next word, I want the space to be // inserted automatically before the next word, the same way it is when I don't // input the comma. mSpaceState = SPACE_STATE_PHANTOM; } // Set punctuation right away. onUpdateSelection will fire but tests whether it is // already displayed or not, so it's okay. setPunctuationSuggestions(); } Utils.Stats.onSeparator((char)primaryCode, x, y); return didAutoCorrect; } private CharSequence getTextWithUnderline(final CharSequence text) { return mIsAutoCorrectionIndicatorOn ? SuggestionSpanUtils.getTextWithAutoCorrectionIndicatorUnderline(this, text) : text; } private void handleClose() { commitTyped(LastComposedWord.NOT_A_SEPARATOR); requestHideSelf(0); LatinKeyboardView inputView = mKeyboardSwitcher.getKeyboardView(); if (inputView != null) inputView.closing(); } public boolean isShowingPunctuationList() { if (mSuggestionsView == null) return false; return mCurrentSettings.mSuggestPuncList == mSuggestionsView.getSuggestions(); } public boolean isSuggestionsStripVisible() { if (mSuggestionsView == null) return false; if (mSuggestionsView.isShowingAddToDictionaryHint()) return true; if (!mCurrentSettings.isSuggestionStripVisibleInOrientation(mDisplayOrientation)) return false; if (mCurrentSettings.isApplicationSpecifiedCompletionsOn()) return true; return mCurrentSettings.isSuggestionsRequested(mDisplayOrientation); } public void switchToKeyboardView() { if (DEBUG) { Log.d(TAG, "Switch to keyboard view."); } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_switchToKeyboardView(); } View v = mKeyboardSwitcher.getKeyboardView(); if (v != null) { // Confirms that the keyboard view doesn't have parent view. ViewParent p = v.getParent(); if (p != null && p instanceof ViewGroup) { ((ViewGroup) p).removeView(v); } setInputView(v); } setSuggestionStripShown(isSuggestionsStripVisible()); updateInputViewShown(); mHandler.postUpdateSuggestions(); } public void clearSuggestions() { setSuggestions(SuggestedWords.EMPTY, false); setAutoCorrectionIndicator(false); } private void setSuggestions(final SuggestedWords words, final boolean isAutoCorrection) { if (mSuggestionsView != null) { mSuggestionsView.setSuggestions(words); mKeyboardSwitcher.onAutoCorrectionStateChanged(isAutoCorrection); } } private void setAutoCorrectionIndicator(final boolean newAutoCorrectionIndicator) { // Put a blue underline to a word in TextView which will be auto-corrected. if (mIsAutoCorrectionIndicatorOn != newAutoCorrectionIndicator && mWordComposer.isComposingWord()) { mIsAutoCorrectionIndicatorOn = newAutoCorrectionIndicator; final CharSequence textWithUnderline = getTextWithUnderline(mWordComposer.getTypedWord()); mConnection.setComposingText(textWithUnderline, 1); } } public void updateSuggestions() { // Check if we have a suggestion engine attached. if ((mSuggest == null || !mCurrentSettings.isSuggestionsRequested(mDisplayOrientation))) { if (mWordComposer.isComposingWord()) { Log.w(TAG, "Called updateSuggestions but suggestions were not requested!"); mWordComposer.setAutoCorrection(mWordComposer.getTypedWord()); } return; } mHandler.cancelUpdateSuggestions(); mHandler.cancelUpdateBigramPredictions(); if (!mWordComposer.isComposingWord()) { setPunctuationSuggestions(); return; } // TODO: May need a better way of retrieving previous word final CharSequence prevWord = mConnection.getPreviousWord(mCurrentSettings.mWordSeparators); final CharSequence typedWord = mWordComposer.getTypedWord(); // getSuggestedWords handles gracefully a null value of prevWord final SuggestedWords suggestedWords = mSuggest.getSuggestedWords(mWordComposer, prevWord, mKeyboardSwitcher.getKeyboard().getProximityInfo(), mCurrentSettings.isCorrectionOn()); // Basically, we update the suggestion strip only when suggestion count > 1. However, // there is an exception: We update the suggestion strip whenever typed word's length // is 1 or typed word is found in dictionary, regardless of suggestion count. Actually, // in most cases, suggestion count is 1 when typed word's length is 1, but we do always // need to clear the previous state when the user starts typing a word (i.e. typed word's // length == 1). if (suggestedWords.size() > 1 || typedWord.length() == 1 || !suggestedWords.mAllowsToBeAutoCorrected || mSuggestionsView.isShowingAddToDictionaryHint()) { showSuggestions(suggestedWords, typedWord); } else { SuggestedWords previousSuggestions = mSuggestionsView.getSuggestions(); if (previousSuggestions == mCurrentSettings.mSuggestPuncList) { previousSuggestions = SuggestedWords.EMPTY; } final ArrayList typedWordAndPreviousSuggestions = SuggestedWords.getTypedWordAndPreviousSuggestions( typedWord, previousSuggestions); final SuggestedWords obsoleteSuggestedWords = new SuggestedWords(typedWordAndPreviousSuggestions, false /* typedWordValid */, false /* hasAutoCorrectionCandidate */, false /* allowsToBeAutoCorrected */, false /* isPunctuationSuggestions */, true /* isObsoleteSuggestions */, false /* isPrediction */); showSuggestions(obsoleteSuggestedWords, typedWord); } } public void showSuggestions(final SuggestedWords suggestedWords, final CharSequence typedWord) { final CharSequence autoCorrection; if (suggestedWords.size() > 0) { if (suggestedWords.hasAutoCorrectionWord()) { autoCorrection = suggestedWords.getWord(1); } else { autoCorrection = typedWord; } } else { autoCorrection = null; } mWordComposer.setAutoCorrection(autoCorrection); final boolean isAutoCorrection = suggestedWords.willAutoCorrect(); setSuggestions(suggestedWords, isAutoCorrection); setAutoCorrectionIndicator(isAutoCorrection); setSuggestionStripShown(isSuggestionsStripVisible()); } private void commitCurrentAutoCorrection(final int separatorCodePoint) { // Complete any pending suggestions query first if (mHandler.hasPendingUpdateSuggestions()) { mHandler.cancelUpdateSuggestions(); updateSuggestions(); } final CharSequence autoCorrection = mWordComposer.getAutoCorrectionOrNull(); if (autoCorrection != null) { final String typedWord = mWordComposer.getTypedWord(); if (TextUtils.isEmpty(typedWord)) { throw new RuntimeException("We have an auto-correction but the typed word " + "is empty? Impossible! I must commit suicide."); } Utils.Stats.onAutoCorrection(typedWord, autoCorrection.toString(), separatorCodePoint); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_commitCurrentAutoCorrection(typedWord, autoCorrection.toString()); } mExpectingUpdateSelection = true; commitChosenWord(autoCorrection, LastComposedWord.COMMIT_TYPE_DECIDED_WORD, separatorCodePoint); if (!typedWord.equals(autoCorrection)) { // This will make the correction flash for a short while as a visual clue // to the user that auto-correction happened. mConnection.commitCorrection( new CorrectionInfo(mLastSelectionEnd - typedWord.length(), typedWord, autoCorrection)); } } } @Override public void pickSuggestionManually(final int index, final CharSequence suggestion, final int x, final int y) { final SuggestedWords suggestedWords = mSuggestionsView.getSuggestions(); // If this is a punctuation picked from the suggestion strip, pass it to onCodeInput if (suggestion.length() == 1 && isShowingPunctuationList()) { // Word separators are suggested before the user inputs something. // So, LatinImeLogger logs "" as a user's input. LatinImeLogger.logOnManualSuggestion("", suggestion.toString(), index, suggestedWords); // Rely on onCodeInput to do the complicated swapping/stripping logic consistently. if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_punctuationSuggestion(index, suggestion, x, y); } final int primaryCode = suggestion.charAt(0); onCodeInput(primaryCode, KeyboardActionListener.SUGGESTION_STRIP_COORDINATE, KeyboardActionListener.SUGGESTION_STRIP_COORDINATE); return; } if (SPACE_STATE_PHANTOM == mSpaceState && suggestion.length() > 0) { int firstChar = Character.codePointAt(suggestion, 0); if ((!mCurrentSettings.isWeakSpaceStripper(firstChar)) && (!mCurrentSettings.isWeakSpaceSwapper(firstChar))) { sendKeyCodePoint(Keyboard.CODE_SPACE); } } if (mCurrentSettings.isApplicationSpecifiedCompletionsOn() && mApplicationSpecifiedCompletions != null && index >= 0 && index < mApplicationSpecifiedCompletions.length) { if (mSuggestionsView != null) { mSuggestionsView.clear(); } mKeyboardSwitcher.updateShiftState(); resetComposingState(true /* alsoResetLastComposedWord */); final CompletionInfo completionInfo = mApplicationSpecifiedCompletions[index]; mConnection.beginBatchEdit(getCurrentInputConnection()); mConnection.commitCompletion(completionInfo); mConnection.endBatchEdit(); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_pickApplicationSpecifiedCompletion(index, completionInfo.getText(), x, y); } return; } // We need to log before we commit, because the word composer will store away the user // typed word. final String replacedWord = mWordComposer.getTypedWord().toString(); LatinImeLogger.logOnManualSuggestion(replacedWord, suggestion.toString(), index, suggestedWords); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_pickSuggestionManually(replacedWord, index, suggestion, x, y); } mExpectingUpdateSelection = true; commitChosenWord(suggestion, LastComposedWord.COMMIT_TYPE_MANUAL_PICK, LastComposedWord.NOT_A_SEPARATOR); // Don't allow cancellation of manual pick mLastComposedWord.deactivate(); mSpaceState = SPACE_STATE_PHANTOM; // TODO: is this necessary? mKeyboardSwitcher.updateShiftState(); // We should show the "Touch again to save" hint if the user pressed the first entry // AND either: // - There is no dictionary (we know that because we tried to load it => null != mSuggest // AND mSuggest.hasMainDictionary() is false) // - There is a dictionary and the word is not in it // Please note that if mSuggest is null, it means that everything is off: suggestion // and correction, so we shouldn't try to show the hint final boolean showingAddToDictionaryHint = index == 0 && mSuggest != null // If there is no dictionary the hint should be shown. && (!mSuggest.hasMainDictionary() // If "suggestion" is not in the dictionary, the hint should be shown. || !AutoCorrection.isValidWord( mSuggest.getUnigramDictionaries(), suggestion, true)); Utils.Stats.onSeparator((char)Keyboard.CODE_SPACE, WordComposer.NOT_A_COORDINATE, WordComposer.NOT_A_COORDINATE); 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. updateBigramPredictions(); // Updating the predictions right away may be slow and feel unresponsive on slower // terminals. On the other hand if we just postUpdateBigramPredictions() it will // take a noticeable delay to update them which may feel uneasy. } else { if (mIsUserDictionaryAvailable) { mSuggestionsView.showAddToDictionaryHint( suggestion, mCurrentSettings.mHintToSaveText); } else { mHandler.postUpdateSuggestions(); } } } /** * Commits the chosen word to the text field and saves it for later retrieval. */ private void commitChosenWord(final CharSequence chosenWord, final int commitType, final int separatorCode) { if (mCurrentSettings.mEnableSuggestionSpanInsertion) { final SuggestedWords suggestedWords = mSuggestionsView.getSuggestions(); mConnection.commitText(SuggestionSpanUtils.getTextWithSuggestionSpan( this, chosenWord, suggestedWords, mIsMainDictionaryAvailable), 1); } else { mConnection.commitText(chosenWord, 1); } if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_commitText(chosenWord); } // Add the word to the user history dictionary final CharSequence prevWord = addToUserHistoryDictionary(chosenWord); // TODO: figure out here if this is an auto-correct or if the best word is actually // what user typed. Note: currently this is done much later in // LastComposedWord#didCommitTypedWord by string equality of the remembered // strings. mLastComposedWord = mWordComposer.commitWord(commitType, chosenWord.toString(), separatorCode, prevWord); } public void updateBigramPredictions() { if (mSuggest == null || !mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)) return; if (!mCurrentSettings.mBigramPredictionEnabled) { setPunctuationSuggestions(); return; } final SuggestedWords suggestedWords; if (mCurrentSettings.isCorrectionOn()) { final CharSequence prevWord = mConnection.getThisWord(mCurrentSettings.mWordSeparators); if (!TextUtils.isEmpty(prevWord)) { suggestedWords = mSuggest.getBigramPredictions(prevWord); } else { suggestedWords = null; } } else { suggestedWords = null; } if (null != suggestedWords && suggestedWords.size() > 0) { // Explicitly supply an empty typed word (the no-second-arg version of // showSuggestions will retrieve the word near the cursor, we don't want that here) showSuggestions(suggestedWords, ""); } else { clearSuggestions(); } } public void setPunctuationSuggestions() { if (mCurrentSettings.mBigramPredictionEnabled) { clearSuggestions(); } else { setSuggestions(mCurrentSettings.mSuggestPuncList, false); } setAutoCorrectionIndicator(false); setSuggestionStripShown(isSuggestionsStripVisible()); } private CharSequence addToUserHistoryDictionary(final CharSequence suggestion) { if (TextUtils.isEmpty(suggestion)) return null; // 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 (!mCurrentSettings.isCorrectionOn()) return null; if (mUserHistoryDictionary != null) { final CharSequence prevWord = mConnection.getPreviousWord(mCurrentSettings.mWordSeparators); final String secondWord; if (mWordComposer.isAutoCapitalized() && !mWordComposer.isMostlyCaps()) { secondWord = suggestion.toString().toLowerCase( mSubtypeSwitcher.getCurrentSubtypeLocale()); } else { secondWord = suggestion.toString(); } // We demote unrecognized words (frequency < 0, below) by specifying them as "invalid". // We don't add words with 0-frequency (assuming they would be profanity etc.). final int maxFreq = AutoCorrection.getMaxFrequency( mSuggest.getUnigramDictionaries(), suggestion); if (maxFreq == 0) return null; mUserHistoryDictionary.addToUserHistory(null == prevWord ? null : prevWord.toString(), secondWord, maxFreq > 0); return prevWord; } return null; } /** * Check if the cursor is actually at the end of a word. If so, restart suggestions on this * word, else do nothing. */ private void restartSuggestionsOnWordBeforeCursorIfAtEndOfWord() { final CharSequence word = mConnection.getWordBeforeCursorIfAtEndOfWord(mCurrentSettings); if (null != word) { restartSuggestionsOnWordBeforeCursor(word); } } private void restartSuggestionsOnWordBeforeCursor(final CharSequence word) { mWordComposer.setComposingWord(word, mKeyboardSwitcher.getKeyboard()); final int length = word.length(); mConnection.deleteSurroundingText(length, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(length); } mConnection.setComposingText(word, 1); mHandler.postUpdateSuggestions(); } private void revertCommit() { final CharSequence previousWord = mLastComposedWord.mPrevWord; final String originallyTypedWord = mLastComposedWord.mTypedWord; final CharSequence committedWord = mLastComposedWord.mCommittedWord; final int cancelLength = committedWord.length(); final int separatorLength = LastComposedWord.getSeparatorLength( mLastComposedWord.mSeparatorCode); // TODO: should we check our saved separator against the actual contents of the text view? final int deleteLength = cancelLength + separatorLength; if (DEBUG) { if (mWordComposer.isComposingWord()) { throw new RuntimeException("revertCommit, but we are composing a word"); } final String wordBeforeCursor = mConnection.getTextBeforeCursor(deleteLength, 0) .subSequence(0, cancelLength).toString(); if (!TextUtils.equals(committedWord, wordBeforeCursor)) { throw new RuntimeException("revertCommit check failed: we thought we were " + "reverting \"" + committedWord + "\", but before the cursor we found \"" + wordBeforeCursor + "\""); } } mConnection.deleteSurroundingText(deleteLength, 0); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_deleteSurroundingText(deleteLength); } if (!TextUtils.isEmpty(previousWord) && !TextUtils.isEmpty(committedWord)) { mUserHistoryDictionary.cancelAddingUserHistory( previousWord.toString(), committedWord.toString()); } if (0 == separatorLength || mLastComposedWord.didCommitTypedWord()) { // This is the case when we cancel a manual pick. // We should restart suggestion on the word right away. mWordComposer.resumeSuggestionOnLastComposedWord(mLastComposedWord); mConnection.setComposingText(originallyTypedWord, 1); } else { mConnection.commitText(originallyTypedWord, 1); // Re-insert the separator sendKeyCodePoint(mLastComposedWord.mSeparatorCode); Utils.Stats.onSeparator(mLastComposedWord.mSeparatorCode, WordComposer.NOT_A_COORDINATE, WordComposer.NOT_A_COORDINATE); if (ProductionFlag.IS_EXPERIMENTAL) { ResearchLogger.latinIME_revertCommit(originallyTypedWord); } // Don't restart suggestion yet. We'll restart if the user deletes the // separator. } mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD; mHandler.cancelUpdateBigramPredictions(); mHandler.postUpdateSuggestions(); } public boolean isWordSeparator(int code) { return mCurrentSettings.isWordSeparator(code); } public boolean preferCapitalization() { return mWordComposer.isFirstCharCapitalized(); } // Notify that language or mode have been changed and toggleLanguage will update KeyboardID // according to new language or mode. public void onRefreshKeyboard() { // When the device locale is changed in SetupWizard etc., this method may get called via // onConfigurationChanged before SoftInputWindow is shown. if (mKeyboardSwitcher.getKeyboardView() != null) { // Reload keyboard because the current language has been changed. mKeyboardSwitcher.loadKeyboard(getCurrentInputEditorInfo(), mCurrentSettings); } initSuggest(); loadSettings(); // Since we just changed languages, we should re-evaluate suggestions with whatever word // we are currently composing. If we are not composing anything, we may want to display // predictions or punctuation signs (which is done by updateBigramPredictions anyway). if (mConnection.isCursorTouchingWord(mCurrentSettings)) { mHandler.postUpdateSuggestions(); } else { mHandler.postUpdateBigramPredictions(); } } // TODO: Remove this method from {@link LatinIME} and move {@link FeedbackManager} to // {@link KeyboardSwitcher}. public void hapticAndAudioFeedback(final int primaryCode) { mFeedbackManager.hapticAndAudioFeedback(primaryCode, mKeyboardSwitcher.getKeyboardView()); } @Override public void onPressKey(int primaryCode) { mKeyboardSwitcher.onPressKey(primaryCode); } @Override public void onReleaseKey(int primaryCode, boolean withSliding) { mKeyboardSwitcher.onReleaseKey(primaryCode, withSliding); // If accessibility is on, ensure the user receives keyboard state updates. if (AccessibilityUtils.getInstance().isTouchExplorationEnabled()) { switch (primaryCode) { case Keyboard.CODE_SHIFT: AccessibleKeyboardViewProxy.getInstance().notifyShiftState(); break; case Keyboard.CODE_SWITCH_ALPHA_SYMBOL: AccessibleKeyboardViewProxy.getInstance().notifySymbolsState(); break; } } if (Keyboard.CODE_DELETE == primaryCode) { // This is a stopgap solution to avoid leaving a high surrogate alone in a text view. // In the future, we need to deprecate deteleSurroundingText() and have a surrogate // pair-friendly way of deleting characters in InputConnection. final CharSequence lastChar = mConnection.getTextBeforeCursor(1, 0); if (!TextUtils.isEmpty(lastChar) && Character.isHighSurrogate(lastChar.charAt(0))) { mConnection.deleteSurroundingText(1, 0); } } } // receive ringer mode change and network state change. private BroadcastReceiver mReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { final String action = intent.getAction(); if (action.equals(ConnectivityManager.CONNECTIVITY_ACTION)) { mSubtypeSwitcher.onNetworkStateChanged(intent); } else if (action.equals(AudioManager.RINGER_MODE_CHANGED_ACTION)) { mFeedbackManager.onRingerModeChanged(); } } }; private void launchSettings() { launchSettingsClass(SettingsActivity.class); } public void launchDebugSettings() { launchSettingsClass(DebugSettingsActivity.class); } private void launchSettingsClass(Class settingsClass) { handleClose(); Intent intent = new Intent(); intent.setClass(LatinIME.this, settingsClass); intent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK); startActivity(intent); } private void showSubtypeSelectorAndSettings() { final CharSequence title = getString(R.string.english_ime_input_options); final CharSequence[] items = new CharSequence[] { // TODO: Should use new string "Select active input modes". getString(R.string.language_selection_title), getString(R.string.english_ime_settings), }; final Context context = this; final DialogInterface.OnClickListener listener = new DialogInterface.OnClickListener() { @Override public void onClick(DialogInterface di, int position) { di.dismiss(); switch (position) { case 0: Intent intent = CompatUtils.getInputLanguageSelectionIntent( ImfUtils.getInputMethodIdOfThisIme(context), Intent.FLAG_ACTIVITY_NEW_TASK | Intent.FLAG_ACTIVITY_RESET_TASK_IF_NEEDED | Intent.FLAG_ACTIVITY_CLEAR_TOP); startActivity(intent); break; case 1: launchSettings(); break; } } }; final AlertDialog.Builder builder = new AlertDialog.Builder(this) .setItems(items, listener) .setTitle(title); showOptionDialog(builder.create()); } /* package */ void showOptionDialog(AlertDialog dialog) { final IBinder windowToken = mKeyboardSwitcher.getKeyboardView().getWindowToken(); if (windowToken == null) return; dialog.setCancelable(true); dialog.setCanceledOnTouchOutside(true); final Window window = dialog.getWindow(); final WindowManager.LayoutParams lp = window.getAttributes(); lp.token = windowToken; lp.type = WindowManager.LayoutParams.TYPE_APPLICATION_ATTACHED_DIALOG; window.setAttributes(lp); window.addFlags(WindowManager.LayoutParams.FLAG_ALT_FOCUSABLE_IM); mOptionsDialog = dialog; dialog.show(); } @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 :"); final Keyboard keyboard = mKeyboardSwitcher.getKeyboard(); final int keyboardMode = keyboard != null ? keyboard.mId.mMode : -1; p.println(" Keyboard mode = " + keyboardMode); p.println(" mIsSuggestionsSuggestionsRequested = " + mCurrentSettings.isSuggestionsRequested(mDisplayOrientation)); p.println(" mCorrectionEnabled=" + mCurrentSettings.mCorrectionEnabled); p.println(" isComposingWord=" + mWordComposer.isComposingWord()); p.println(" isCorrectionOn=" + mCurrentSettings.isCorrectionOn()); p.println(" mSoundOn=" + mCurrentSettings.mSoundOn); p.println(" mVibrateOn=" + mCurrentSettings.mVibrateOn); p.println(" mKeyPreviewPopupOn=" + mCurrentSettings.mKeyPreviewPopupOn); p.println(" inputAttributes=" + mCurrentSettings.getInputAttributesDebugString()); } }