LatinIME/java/src/com/android/inputmethod/latin/LatinIME.java

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/*
* Copyright (C) 2008 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy of
* the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
package com.android.inputmethod.latin;
import android.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.inputmethodservice.InputMethodService;
import android.media.AudioManager;
import android.net.ConnectivityManager;
import android.os.Debug;
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.HapticFeedbackConstants;
import android.view.KeyEvent;
import android.view.View;
import android.view.ViewGroup;
import android.view.ViewParent;
import android.view.inputmethod.CompletionInfo;
import android.view.inputmethod.EditorInfo;
import android.view.inputmethod.ExtractedText;
import android.view.inputmethod.InputConnection;
import com.android.inputmethod.accessibility.AccessibilityUtils;
import com.android.inputmethod.accessibility.AccessibleKeyboardViewProxy;
import com.android.inputmethod.compat.CompatUtils;
import com.android.inputmethod.compat.EditorInfoCompatUtils;
import com.android.inputmethod.compat.InputConnectionCompatUtils;
import com.android.inputmethod.compat.InputMethodManagerCompatWrapper;
import com.android.inputmethod.compat.InputMethodServiceCompatWrapper;
import com.android.inputmethod.compat.InputTypeCompatUtils;
import com.android.inputmethod.compat.SuggestionSpanUtils;
import com.android.inputmethod.compat.VibratorCompatWrapper;
import com.android.inputmethod.deprecated.LanguageSwitcherProxy;
import com.android.inputmethod.deprecated.VoiceProxy;
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.suggestions.SuggestionsView;
import java.io.FileDescriptor;
import java.io.PrintWriter;
import java.util.Locale;
/**
* Input method implementation for Qwerty'ish keyboard.
*/
public class LatinIME extends InputMethodServiceCompatWrapper implements KeyboardActionListener,
SuggestionsView.Listener {
private static final String TAG = LatinIME.class.getSimpleName();
private static final boolean TRACE = false;
private static boolean DEBUG;
/**
* 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.
*
* @deprecated Use {@link LatinIME#IME_OPTION_NO_MICROPHONE} with package name prefixed.
*/
@SuppressWarnings("dep-ann")
public static final String IME_OPTION_NO_MICROPHONE_COMPAT = "nm";
/**
* 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.
*/
public static final String IME_OPTION_NO_MICROPHONE = "noMicrophoneKey";
/**
* The private IME option used to indicate that no settings key should be
* shown for a given text field.
*/
public static final String IME_OPTION_NO_SETTINGS_KEY = "noSettingsKey";
/**
* The private IME option used to indicate that the given text field needs
* ASCII code points input.
*
* @deprecated Use {@link EditorInfo#IME_FLAG_FORCE_ASCII}.
*/
@SuppressWarnings("dep-ann")
public static final String IME_OPTION_FORCE_ASCII = "forceAscii";
/**
* The subtype extra value used to indicate that the subtype keyboard layout is capable for
* typing ASCII characters.
*/
public static final String SUBTYPE_EXTRA_VALUE_ASCII_CAPABLE = "AsciiCapable";
/**
* The subtype extra value used to indicate that the subtype keyboard layout supports touch
* position correction.
*/
public static final String SUBTYPE_EXTRA_VALUE_SUPPORT_TOUCH_POSITION_CORRECTION =
"SupportTouchPositionCorrection";
/**
* The subtype extra value used to indicate that the subtype keyboard layout should be loaded
* from the specified locale.
*/
public static final String SUBTYPE_EXTRA_VALUE_KEYBOARD_LOCALE = "KeyboardLocale";
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";
// TODO: migrate this to SettingsValues
private int mSuggestionVisibility;
private static final int SUGGESTION_VISIBILILTY_SHOW_VALUE
= R.string.prefs_suggestion_visibility_show_value;
private static final int SUGGESTION_VISIBILILTY_SHOW_ONLY_PORTRAIT_VALUE
= R.string.prefs_suggestion_visibility_show_only_portrait_value;
private static final int SUGGESTION_VISIBILILTY_HIDE_VALUE
= R.string.prefs_suggestion_visibility_hide_value;
private static final int[] SUGGESTION_VISIBILITY_VALUE_ARRAY = new int[] {
SUGGESTION_VISIBILILTY_SHOW_VALUE,
SUGGESTION_VISIBILILTY_SHOW_ONLY_PORTRAIT_VALUE,
SUGGESTION_VISIBILILTY_HIDE_VALUE
};
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 mSettingsValues;
private InputAttributes mInputAttributes;
private View mExtractArea;
private View mKeyPreviewBackingView;
private View mSuggestionsContainer;
private SuggestionsView mSuggestionsView;
/* package for tests */ Suggest mSuggest;
private CompletionInfo[] mApplicationSpecifiedCompletions;
private InputMethodManagerCompatWrapper mImm;
private Resources mResources;
private SharedPreferences mPrefs;
private KeyboardSwitcher mKeyboardSwitcher;
private SubtypeSwitcher mSubtypeSwitcher;
private VoiceProxy mVoiceProxy;
private UserDictionary mUserDictionary;
private UserBigramDictionary mUserBigramDictionary;
private UserUnigramDictionary mUserUnigramDictionary;
private boolean mIsUserDictionaryAvailable;
private LastComposedWord mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD;
private WordComposer mWordComposer = new WordComposer();
private int mCorrectionMode;
// 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 AudioManager mAudioManager;
private boolean mSilentModeOn; // System-wide current configuration
private VibratorCompatWrapper mVibrator;
// TODO: Move this flag to VoiceProxy
private boolean mConfigurationChanging;
// 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 final ComposingStateManager mComposingStateManager =
ComposingStateManager.getInstance();
public final UIHandler mHandler = new UIHandler(this);
public static class UIHandler extends StaticInnerHandlerWrapper<LatinIME> {
private static final int MSG_UPDATE_SUGGESTIONS = 0;
private static final int MSG_UPDATE_SHIFT_STATE = 1;
private static final int MSG_VOICE_RESULTS = 2;
private static final int MSG_FADEOUT_LANGUAGE_ON_SPACEBAR = 3;
private static final int MSG_DISMISS_LANGUAGE_ON_SPACEBAR = 4;
private static final int MSG_SPACE_TYPED = 5;
private static final int MSG_SET_BIGRAM_PREDICTIONS = 6;
private static final int MSG_PENDING_IMS_CALLBACK = 7;
private int mDelayBeforeFadeoutLanguageOnSpacebar;
private int mDelayUpdateSuggestions;
private int mDelayUpdateShiftState;
private int mDurationOfFadeoutLanguageOnSpacebar;
private float mFinalFadeoutFactorOfLanguageOnSpacebar;
private long mDoubleSpacesTurnIntoPeriodTimeout;
public UIHandler(LatinIME outerInstance) {
super(outerInstance);
}
public void onCreate() {
final Resources res = getOuterInstance().getResources();
mDelayBeforeFadeoutLanguageOnSpacebar = res.getInteger(
R.integer.config_delay_before_fadeout_language_on_spacebar);
mDelayUpdateSuggestions =
res.getInteger(R.integer.config_delay_update_suggestions);
mDelayUpdateShiftState =
res.getInteger(R.integer.config_delay_update_shift_state);
mDurationOfFadeoutLanguageOnSpacebar = res.getInteger(
R.integer.config_duration_of_fadeout_language_on_spacebar);
mFinalFadeoutFactorOfLanguageOnSpacebar = res.getInteger(
R.integer.config_final_fadeout_percentage_of_language_on_spacebar) / 100.0f;
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;
final LatinKeyboardView inputView = switcher.getKeyboardView();
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;
case MSG_VOICE_RESULTS:
final Keyboard keyboard = switcher.getKeyboard();
latinIme.mVoiceProxy.handleVoiceResults(latinIme.preferCapitalization()
|| (keyboard != null && keyboard.isShiftedOrShiftLocked()));
break;
case MSG_FADEOUT_LANGUAGE_ON_SPACEBAR:
setSpacebarTextFadeFactor(inputView,
(1.0f + mFinalFadeoutFactorOfLanguageOnSpacebar) / 2,
(Keyboard)msg.obj);
sendMessageDelayed(obtainMessage(MSG_DISMISS_LANGUAGE_ON_SPACEBAR, msg.obj),
mDurationOfFadeoutLanguageOnSpacebar);
break;
case MSG_DISMISS_LANGUAGE_ON_SPACEBAR:
setSpacebarTextFadeFactor(inputView, mFinalFadeoutFactorOfLanguageOnSpacebar,
(Keyboard)msg.obj);
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 updateVoiceResults() {
sendMessage(obtainMessage(MSG_VOICE_RESULTS));
}
private static void setSpacebarTextFadeFactor(LatinKeyboardView inputView,
float fadeFactor, Keyboard oldKeyboard) {
if (inputView == null) return;
final Keyboard keyboard = inputView.getKeyboard();
if (keyboard == oldKeyboard) {
inputView.updateSpacebar(fadeFactor,
SubtypeSwitcher.getInstance().needsToDisplayLanguage(
keyboard.mId.mLocale));
}
}
public void startDisplayLanguageOnSpacebar(boolean localeChanged) {
final LatinIME latinIme = getOuterInstance();
removeMessages(MSG_FADEOUT_LANGUAGE_ON_SPACEBAR);
removeMessages(MSG_DISMISS_LANGUAGE_ON_SPACEBAR);
final LatinKeyboardView inputView = latinIme.mKeyboardSwitcher.getKeyboardView();
if (inputView != null) {
final Keyboard keyboard = latinIme.mKeyboardSwitcher.getKeyboard();
// The language is always displayed when the delay is negative.
final boolean needsToDisplayLanguage = localeChanged
|| mDelayBeforeFadeoutLanguageOnSpacebar < 0;
// The language is never displayed when the delay is zero.
if (mDelayBeforeFadeoutLanguageOnSpacebar != 0) {
setSpacebarTextFadeFactor(inputView,
needsToDisplayLanguage ? 1.0f : mFinalFadeoutFactorOfLanguageOnSpacebar,
keyboard);
}
// The fadeout animation will start when the delay is positive.
if (localeChanged && mDelayBeforeFadeoutLanguageOnSpacebar > 0) {
sendMessageDelayed(obtainMessage(MSG_FADEOUT_LANGUAGE_ON_SPACEBAR, keyboard),
mDelayBeforeFadeoutLanguageOnSpacebar);
}
}
}
public void startDoubleSpacesTimer() {
removeMessages(MSG_SPACE_TYPED);
sendMessageDelayed(obtainMessage(MSG_SPACE_TYPED), mDoubleSpacesTurnIntoPeriodTimeout);
}
public void cancelDoubleSpacesTimer() {
removeMessages(MSG_SPACE_TYPED);
}
public boolean isAcceptingDoubleSpaces() {
return hasMessages(MSG_SPACE_TYPED);
}
// 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();
}
}
}
@Override
public void onCreate() {
final SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(this);
mPrefs = prefs;
LatinImeLogger.init(this, prefs);
LanguageSwitcherProxy.init(this, prefs);
InputMethodManagerCompatWrapper.init(this);
SubtypeSwitcher.init(this);
KeyboardSwitcher.init(this, prefs);
AccessibilityUtils.init(this);
super.onCreate();
mImm = InputMethodManagerCompatWrapper.getInstance();
mSubtypeSwitcher = SubtypeSwitcher.getInstance();
mKeyboardSwitcher = KeyboardSwitcher.getInstance();
mVibrator = VibratorCompatWrapper.getInstance(this);
mHandler.onCreate();
DEBUG = LatinImeLogger.sDBG;
final Resources res = getResources();
mResources = res;
loadSettings();
// TODO: remove the following when it's not needed by updateCorrectionMode() any more
mInputAttributes = new InputAttributes(null, false /* isFullscreenMode */);
Utils.GCUtils.getInstance().reset();
boolean tryGC = true;
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(AudioManager.RINGER_MODE_CHANGED_ACTION);
filter.addAction(ConnectivityManager.CONNECTIVITY_ACTION);
registerReceiver(mReceiver, filter);
mVoiceProxy = VoiceProxy.init(this, prefs, mHandler);
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() {
if (null == mPrefs) mPrefs = PreferenceManager.getDefaultSharedPreferences(this);
if (null == mSubtypeSwitcher) mSubtypeSwitcher = SubtypeSwitcher.getInstance();
mSettingsValues = new SettingsValues(mPrefs, this, mSubtypeSwitcher.getInputLocaleStr());
resetContactsDictionary(null == mSuggest ? null : mSuggest.getContactsDictionary());
}
private void initSuggest() {
final String localeStr = mSubtypeSwitcher.getInputLocaleStr();
final Locale keyboardLocale = LocaleUtils.constructLocaleFromString(localeStr);
final Resources res = mResources;
final Locale savedLocale = LocaleUtils.setSystemLocale(res, keyboardLocale);
final ContactsDictionary oldContactsDictionary;
if (mSuggest != null) {
oldContactsDictionary = mSuggest.getContactsDictionary();
mSuggest.close();
} else {
oldContactsDictionary = null;
}
int mainDicResId = Utils.getMainDictionaryResourceId(res);
mSuggest = new Suggest(this, mainDicResId, keyboardLocale);
if (mSettingsValues.mAutoCorrectEnabled) {
mSuggest.setAutoCorrectionThreshold(mSettingsValues.mAutoCorrectionThreshold);
}
mUserDictionary = new UserDictionary(this, localeStr);
mSuggest.setUserDictionary(mUserDictionary);
mIsUserDictionaryAvailable = mUserDictionary.isEnabled();
resetContactsDictionary(oldContactsDictionary);
mUserUnigramDictionary
= new UserUnigramDictionary(this, this, localeStr, Suggest.DIC_USER_UNIGRAM);
mSuggest.setUserUnigramDictionary(mUserUnigramDictionary);
mUserBigramDictionary
= new UserBigramDictionary(this, this, localeStr, Suggest.DIC_USER_BIGRAM);
mSuggest.setUserBigramDictionary(mUserBigramDictionary);
updateCorrectionMode();
LocaleUtils.setSystemLocale(res, savedLocale);
}
/**
* Resets the contacts dictionary in mSuggest according to the user settings.
*
* This method takes an optional contacts dictionary to use. Since the contacts dictionary
* does not depend on the locale, it can be reused across different instances of Suggest.
* The dictionary will also be opened or closed as necessary depending on the settings.
*
* @param oldContactsDictionary an optional dictionary to use, or null
*/
private void resetContactsDictionary(final ContactsDictionary oldContactsDictionary) {
final boolean shouldSetDictionary = (null != mSuggest && mSettingsValues.mUseContactsDict);
final ContactsDictionary 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 if (null != oldContactsDictionary) {
// 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 ContactsDictionary(this, Suggest.DIC_CONTACTS);
}
if (null != mSuggest) {
mSuggest.setContactsDictionary(dictionaryToUse);
}
}
/* package private */ void resetSuggestMainDict() {
final String localeStr = mSubtypeSwitcher.getInputLocaleStr();
final Locale keyboardLocale = LocaleUtils.constructLocaleFromString(localeStr);
int mainDicResId = Utils.getMainDictionaryResourceId(mResources);
mSuggest.resetMainDict(this, mainDicResId, keyboardLocale);
}
@Override
public void onDestroy() {
if (mSuggest != null) {
mSuggest.close();
mSuggest = null;
}
unregisterReceiver(mReceiver);
unregisterReceiver(mDictionaryPackInstallReceiver);
mVoiceProxy.destroy();
LatinImeLogger.commit();
LatinImeLogger.onDestroy();
super.onDestroy();
}
@Override
public void onConfigurationChanged(Configuration conf) {
mSubtypeSwitcher.onConfigurationChanged(conf);
mComposingStateManager.onFinishComposingText();
// If orientation changed while predicting, commit the change
if (mDisplayOrientation != conf.orientation) {
mDisplayOrientation = conf.orientation;
mHandler.startOrientationChanging();
final InputConnection ic = getCurrentInputConnection();
commitTyped(ic);
if (ic != null) ic.finishComposingText(); // For voice input
if (isShowingOptionDialog())
mOptionsDialog.dismiss();
}
mConfigurationChanging = true;
super.onConfigurationChanged(conf);
mVoiceProxy.onConfigurationChanged(conf);
mConfigurationChanging = false;
// This will work only when the subtype is not supported.
LanguageSwitcherProxy.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();
}
private void onStartInputInternal(EditorInfo editorInfo, boolean restarting) {
super.onStartInput(editorInfo, restarting);
}
private void onStartInputViewInternal(EditorInfo editorInfo, boolean restarting) {
super.onStartInputView(editorInfo, restarting);
final KeyboardSwitcher switcher = mKeyboardSwitcher;
LatinKeyboardView inputView = switcher.getKeyboardView();
if (DEBUG) {
Log.d(TAG, "onStartInputView: editorInfo:" + ((editorInfo == null) ? "none"
: String.format("inputType=0x%08x imeOptions=0x%08x",
editorInfo.inputType, editorInfo.imeOptions)));
}
if (Utils.inPrivateImeOptions(null, IME_OPTION_NO_MICROPHONE_COMPAT, editorInfo)) {
Log.w(TAG, "Deprecated private IME option specified: "
+ editorInfo.privateImeOptions);
Log.w(TAG, "Use " + getPackageName() + "." + IME_OPTION_NO_MICROPHONE + " instead");
}
if (Utils.inPrivateImeOptions(getPackageName(), IME_OPTION_FORCE_ASCII, editorInfo)) {
Log.w(TAG, "Deprecated private IME option specified: "
+ editorInfo.privateImeOptions);
Log.w(TAG, "Use EditorInfo.IME_FLAG_FORCE_ASCII flag instead");
}
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();
// Most such things we decide below in initializeInputAttributesAndGetMode, but we need to
// know now whether this is a password text field, because we need to know now whether we
// want to enable the voice button.
final int inputType = (editorInfo != null) ? editorInfo.inputType : 0;
mVoiceProxy.resetVoiceStates(InputTypeCompatUtils.isPasswordInputType(inputType)
|| InputTypeCompatUtils.isVisiblePasswordInputType(inputType));
// 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;
mInputAttributes = new InputAttributes(editorInfo, isFullscreenMode());
mApplicationSpecifiedCompletions = null;
inputView.closing();
mEnteredText = null;
resetComposingState(true /* alsoResetLastComposedWord */);
mDeleteCount = 0;
mSpaceState = SPACE_STATE_NONE;
loadSettings();
updateCorrectionMode();
updateSuggestionVisibility(mResources);
if (mSuggest != null && mSettingsValues.mAutoCorrectEnabled) {
mSuggest.setAutoCorrectionThreshold(mSettingsValues.mAutoCorrectionThreshold);
}
mVoiceProxy.loadSettings(editorInfo, mPrefs);
// This will work only when the subtype is not supported.
LanguageSwitcherProxy.loadSettings();
if (mSubtypeSwitcher.isKeyboardMode()) {
switcher.loadKeyboard(editorInfo, mSettingsValues);
}
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(mSettingsValues.mKeyPreviewPopupOn,
mSettingsValues.mKeyPreviewPopupDismissDelay);
inputView.setProximityCorrectionEnabled(true);
mVoiceProxy.onStartInputView(inputView.getWindowToken());
if (TRACE) Debug.startMethodTracing("/data/trace/latinime");
}
@Override
public void onWindowHidden() {
super.onWindowHidden();
KeyboardView inputView = mKeyboardSwitcher.getKeyboardView();
if (inputView != null) inputView.closing();
}
private void onFinishInputInternal() {
super.onFinishInput();
LatinImeLogger.commit();
mVoiceProxy.flushVoiceInputLogs(mConfigurationChanging);
KeyboardView inputView = mKeyboardSwitcher.getKeyboardView();
if (inputView != null) inputView.closing();
if (mUserUnigramDictionary != null) mUserUnigramDictionary.flushPendingWrites();
if (mUserBigramDictionary != null) mUserBigramDictionary.flushPendingWrites();
}
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 onUpdateExtractedText(int token, ExtractedText text) {
super.onUpdateExtractedText(token, text);
mVoiceProxy.showPunctuationHintIfNecessary();
}
@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);
}
mVoiceProxy.setCursorAndSelection(newSelEnd, newSelStart);
// 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 (isSuggestionsRequested()) 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 (isSuggestionsRequested()) 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;
}
mVoiceProxy.hideVoiceWindow(mConfigurationChanging);
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 (mInputAttributes.mApplicationSpecifiedCompletionOn) {
mApplicationSpecifiedCompletions = applicationSpecifiedCompletions;
if (applicationSpecifiedCompletions == null) {
clearSuggestions();
return;
}
SuggestedWords.Builder builder = new SuggestedWords.Builder()
.setApplicationSpecifiedCompletions(applicationSpecifiedCompletions)
.setTypedWordValid(false)
.setHasMinimalSuggestion(false);
// When in fullscreen mode, show completions generated by the application
setSuggestions(builder.build());
// 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);
}
@Override
public void onComputeInsets(InputMethodService.Insets outInsets) {
super.onComputeInsets(outInsets);
final KeyboardView inputView = mKeyboardSwitcher.getKeyboardView();
if (inputView == null || mSuggestionsContainer == null)
return;
// 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 backingHeight = (mKeyPreviewBackingView.getVisibility() == View.GONE) ? 0
: mKeyPreviewBackingView.getHeight();
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;
if (DEBUG) {
Log.d(TAG, "Touchable region: y=" + touchY + " width=" + touchWidth
+ " height=" + touchHeight);
}
setTouchableRegionCompat(outInsets, 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 =
mSettingsValues.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);
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
switch (keyCode) {
case KeyEvent.KEYCODE_BACK:
if (event.getRepeatCount() == 0) {
if (mSuggestionsView != null && mSuggestionsView.handleBack()) {
return true;
}
final LatinKeyboardView keyboardView = mKeyboardSwitcher.getKeyboardView();
if (keyboardView != null && keyboardView.handleBack()) {
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:
final LatinKeyboardView keyboardView = mKeyboardSwitcher.getKeyboardView();
final Keyboard keyboard = mKeyboardSwitcher.getKeyboard();
// Enable shift key and DPAD to do selections
if ((keyboardView != null && keyboardView.isShown())
&& (keyboard != null && keyboard.isShiftedOrShiftLocked())) {
KeyEvent newEvent = 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);
final InputConnection ic = getCurrentInputConnection();
if (ic != null)
ic.sendKeyEvent(newEvent);
return true;
}
break;
}
return super.onKeyUp(keyCode, event);
}
// 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();
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
ic.finishComposingText();
}
mComposingStateManager.onFinishComposingText();
mVoiceProxy.setVoiceInputHighlighted(false);
}
private void resetComposingState(final boolean alsoResetLastComposedWord) {
mWordComposer.reset();
if (alsoResetLastComposedWord)
mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD;
}
public void commitTyped(final InputConnection ic) {
if (!mWordComposer.isComposingWord()) return;
final CharSequence typedWord = mWordComposer.getTypedWord();
mLastComposedWord = mWordComposer.commitWord(LastComposedWord.COMMIT_TYPE_USER_TYPED_WORD);
if (typedWord.length() > 0) {
if (ic != null) {
ic.commitText(typedWord, 1);
}
addToUserUnigramAndBigramDictionaries(typedWord,
UserUnigramDictionary.FREQUENCY_FOR_TYPED);
}
updateSuggestions();
}
public boolean getCurrentAutoCapsState() {
final InputConnection ic = getCurrentInputConnection();
EditorInfo ei = getCurrentInputEditorInfo();
if (mSettingsValues.mAutoCap && ic != null && ei != null
&& ei.inputType != InputType.TYPE_NULL) {
return ic.getCursorCapsMode(ei.inputType) != 0;
}
return false;
}
// "ic" may be null
private void swapSwapperAndSpaceWhileInBatchEdit(final InputConnection ic) {
if (null == ic) return;
CharSequence lastTwo = ic.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) {
ic.deleteSurroundingText(2, 0);
ic.commitText(lastTwo.charAt(1) + " ", 1);
mKeyboardSwitcher.updateShiftState();
}
}
private boolean maybeDoubleSpaceWhileInBatchEdit(final InputConnection ic) {
if (mCorrectionMode == Suggest.CORRECTION_NONE) return false;
if (ic == null) return false;
final CharSequence lastThree = ic.getTextBeforeCursor(3, 0);
if (lastThree != null && lastThree.length() == 3
&& Utils.canBeFollowedByPeriod(lastThree.charAt(0))
&& lastThree.charAt(1) == Keyboard.CODE_SPACE
&& lastThree.charAt(2) == Keyboard.CODE_SPACE
&& mHandler.isAcceptingDoubleSpaces()) {
mHandler.cancelDoubleSpacesTimer();
ic.deleteSurroundingText(2, 0);
ic.commitText(". ", 1);
mKeyboardSwitcher.updateShiftState();
return true;
}
return false;
}
// "ic" may be null
private static void removeTrailingSpaceWhileInBatchEdit(final InputConnection ic) {
if (ic == null) return;
final CharSequence lastOne = ic.getTextBeforeCursor(1, 0);
if (lastOne != null && lastOne.length() == 1
&& lastOne.charAt(0) == Keyboard.CODE_SPACE) {
ic.deleteSurroundingText(1, 0);
}
}
@Override
public boolean addWordToDictionary(String word) {
mUserDictionary.addWord(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;
if (InputMethodServiceCompatWrapper.CAN_HANDLE_ON_CURRENT_INPUT_METHOD_SUBTYPE_CHANGED) {
showSubtypeSelectorAndSettings();
} else if (Utils.hasMultipleEnabledIMEsOrSubtypes(false /* exclude aux subtypes */)) {
showOptionsMenu();
} else {
launchSettings();
}
}
// Virtual codes representing custom requests. These are used in onCustomRequest() below.
public static final int CODE_SHOW_INPUT_METHOD_PICKER = 1;
public static final int CODE_HAPTIC_AND_AUDIO_FEEDBACK = 2;
@Override
public boolean onCustomRequest(int requestCode) {
if (isShowingOptionDialog()) return false;
switch (requestCode) {
case CODE_SHOW_INPUT_METHOD_PICKER:
if (Utils.hasMultipleEnabledIMEsOrSubtypes(true /* include aux subtypes */)) {
mImm.showInputMethodPicker();
return true;
}
return false;
case CODE_HAPTIC_AND_AUDIO_FEEDBACK:
hapticAndAudioFeedback(Keyboard.CODE_UNSPECIFIED);
return true;
}
return false;
}
private boolean isShowingOptionDialog() {
return mOptionsDialog != null && mOptionsDialog.isShowing();
}
private void insertPunctuationFromSuggestionStrip(final int code) {
onCodeInput(code, new int[] { code },
KeyboardActionListener.SUGGESTION_STRIP_COORDINATE,
KeyboardActionListener.SUGGESTION_STRIP_COORDINATE);
}
private static int getEditorActionId(EditorInfo editorInfo) {
if (editorInfo == null) return 0;
return (editorInfo.actionLabel != null)
? editorInfo.actionId
: (editorInfo.imeOptions & EditorInfo.IME_MASK_ACTION);
}
private void performeEditorAction(int actionId) {
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
ic.performEditorAction(actionId);
}
}
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;
}
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
final String text = new String(new int[] { code }, 0, 1);
ic.commitText(text, text.length());
}
}
// Implementation of {@link KeyboardActionListener}.
@Override
public void onCodeInput(int primaryCode, int[] keyCodes, int x, int y) {
final long when = SystemClock.uptimeMillis();
if (primaryCode != Keyboard.CODE_DELETE || when > mLastKeyTime + QUICK_PRESS) {
mDeleteCount = 0;
}
mLastKeyTime = when;
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;
// 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;
LatinImeLogger.logOnDelete();
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:
performeEditorAction(getEditorActionId(getCurrentInputEditorInfo()));
break;
case Keyboard.CODE_TAB:
handleTab();
// There are two cases for tab. Either we send a "next" event, that may change the
// focus but will never move the cursor. Or, we send a real tab keycode, which some
// applications may accept or ignore, and we don't know whether this will move the
// cursor or not. So actually, we don't really know.
// So to go with the safer option, we'd rather behave as if the user moved the
// cursor when they didn't than the opposite. We also expect that most applications
// will actually use tab only for focus movement.
// To sum it up: do not update mExpectingUpdateSelection here.
break;
default:
mSpaceState = SPACE_STATE_NONE;
if (mSettingsValues.isWordSeparator(primaryCode)) {
didAutoCorrect = handleSeparator(primaryCode, x, y, spaceState);
} else {
handleCharacter(primaryCode, keyCodes, x, y, spaceState);
}
mExpectingUpdateSelection = true;
break;
}
switcher.onCodeInput(primaryCode);
// Reset after any single keystroke
if (!didAutoCorrect)
mLastComposedWord.deactivate();
mEnteredText = null;
}
@Override
public void onTextInput(CharSequence text) {
mVoiceProxy.commitVoiceInput();
final InputConnection ic = getCurrentInputConnection();
if (ic == null) return;
ic.beginBatchEdit();
commitTyped(ic);
text = specificTldProcessingOnTextInput(ic, text);
if (SPACE_STATE_PHANTOM == mSpaceState) {
sendKeyCodePoint(Keyboard.CODE_SPACE);
}
ic.commitText(text, 1);
ic.endBatchEdit();
mKeyboardSwitcher.updateShiftState();
mKeyboardSwitcher.onCodeInput(Keyboard.CODE_OUTPUT_TEXT);
mSpaceState = SPACE_STATE_NONE;
mEnteredText = text;
resetComposingState(true /* alsoResetLastComposedWord */);
}
// ic may not be null
private CharSequence specificTldProcessingOnTextInput(final InputConnection ic,
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 = ic.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) {
if (mVoiceProxy.logAndRevertVoiceInput()) return;
final InputConnection ic = getCurrentInputConnection();
if (ic == null) return;
ic.beginBatchEdit();
handleBackspaceWhileInBatchEdit(spaceState, ic);
ic.endBatchEdit();
}
// "ic" may not be null.
private void handleBackspaceWhileInBatchEdit(final int spaceState, final InputConnection ic) {
mVoiceProxy.handleBackspace();
// In many cases, we may have to put the keyboard in auto-shift state again.
mHandler.postUpdateShiftState();
if (mEnteredText != null && sameAsTextBeforeCursor(ic, 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.
ic.deleteSurroundingText(mEnteredText.length(), 0);
// 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();
ic.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 {
ic.deleteSurroundingText(1, 0);
}
} else {
// We should be very careful about auto-correction cancellation and suggestion
// resuming here. The behavior needs to be different according to text field types,
// and it would be much clearer to test for them explicitly here rather than
// relying on implicit values like "whether the suggestion strip is displayed".
if (mLastComposedWord.canCancelAutoCorrect()) {
Utils.Stats.onAutoCorrectionCancellation();
cancelAutoCorrect(ic);
return;
}
if (SPACE_STATE_DOUBLE == spaceState) {
if (revertDoubleSpaceWhileInBatchEdit(ic)) {
// 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 (revertSwapPunctuation(ic)) {
// Likewise
return;
}
}
// See the comment above: must be careful about resuming auto-suggestion.
if (mSuggestionsView != null && mSuggestionsView.dismissAddToDictionaryHint()) {
// Go back to the suggestion mode if the user canceled the
// "Touch again to save".
// NOTE: In general, 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.
restartSuggestionsOnManuallyPickedTypedWord(ic);
} else {
// Here we must check whether there is a selection. If so we should remove the
// selected text, otherwise we should just delete the character before the cursor.
if (mLastSelectionStart != mLastSelectionEnd) {
final int lengthToDelete = mLastSelectionEnd - mLastSelectionStart;
ic.setSelection(mLastSelectionEnd, mLastSelectionEnd);
ic.deleteSurroundingText(lengthToDelete, 0);
} else {
if (NOT_A_CURSOR_POSITION == mLastSelectionEnd) {
// This should never happen.
Log.e(TAG, "Backspace when we don't know the selection position");
}
ic.deleteSurroundingText(1, 0);
if (mDeleteCount > DELETE_ACCELERATE_AT) {
ic.deleteSurroundingText(1, 0);
}
}
if (isSuggestionsRequested()) {
restartSuggestionsOnWordBeforeCursorIfAtEndOfWord(ic);
}
}
}
}
// TODO: Implement next and previous actions using other key code than tab's code.
private void handleTab() {
final int imeOptions = getCurrentInputEditorInfo().imeOptions;
if (!EditorInfoCompatUtils.hasFlagNavigateNext(imeOptions)
&& !EditorInfoCompatUtils.hasFlagNavigatePrevious(imeOptions)) {
// TODO: This should be {@link #sendKeyCodePoint(int)}.
sendDownUpKeyEvents(KeyEvent.KEYCODE_TAB);
return;
}
final InputConnection ic = getCurrentInputConnection();
if (ic == null)
return;
final Keyboard keyboard = mKeyboardSwitcher.getKeyboard();
// True if keyboard is in either shift chording or manual shifted state.
final boolean isManualShifted = (keyboard != null && keyboard.isManualShifted());
if (EditorInfoCompatUtils.hasFlagNavigateNext(imeOptions) && !isManualShifted) {
EditorInfoCompatUtils.performEditorActionNext(ic);
} else if (EditorInfoCompatUtils.hasFlagNavigatePrevious(imeOptions) && isManualShifted) {
EditorInfoCompatUtils.performEditorActionPrevious(ic);
}
}
// ic may be null
private boolean maybeStripSpaceWhileInBatchEdit(final InputConnection ic, final int code,
final int spaceState, final boolean isFromSuggestionStrip) {
if (Keyboard.CODE_ENTER == code && SPACE_STATE_SWAP_PUNCTUATION == spaceState) {
removeTrailingSpaceWhileInBatchEdit(ic);
return false;
} else if ((SPACE_STATE_WEAK == spaceState
|| SPACE_STATE_SWAP_PUNCTUATION == spaceState)
&& isFromSuggestionStrip) {
if (mSettingsValues.isWeakSpaceSwapper(code)) {
return true;
} else {
if (mSettingsValues.isWeakSpaceStripper(code)) {
removeTrailingSpaceWhileInBatchEdit(ic);
}
return false;
}
} else {
return false;
}
}
private void handleCharacter(final int primaryCode, final int[] keyCodes, final int x,
final int y, final int spaceState) {
mVoiceProxy.handleCharacter();
final InputConnection ic = getCurrentInputConnection();
if (null != ic) ic.beginBatchEdit();
// TODO: if ic is null, does it make any sense to call this?
handleCharacterWhileInBatchEdit(primaryCode, keyCodes, x, y, spaceState, ic);
if (null != ic) ic.endBatchEdit();
}
// "ic" may be null without this crashing, but the behavior will be really strange
private void handleCharacterWhileInBatchEdit(final int primaryCode, final int[] keyCodes,
final int x, final int y, final int spaceState, final InputConnection ic) {
boolean isComposingWord = mWordComposer.isComposingWord();
if (SPACE_STATE_PHANTOM == spaceState &&
!mSettingsValues.isSymbolExcludedFromWordSeparators(primaryCode)) {
if (isComposingWord) {
// Sanity check
throw new RuntimeException("Should not be composing here");
}
sendKeyCodePoint(Keyboard.CODE_SPACE);
}
if ((isAlphabet(primaryCode)
|| mSettingsValues.isSymbolExcludedFromWordSeparators(primaryCode))
&& isSuggestionsRequested() && !isCursorTouchingWord()) {
if (!isComposingWord) {
// 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();
mComposingStateManager.onFinishComposingText();
}
}
if (isComposingWord) {
mWordComposer.add(primaryCode, keyCodes, x, y);
if (ic != null) {
// If it's the first letter, make note of auto-caps state
if (mWordComposer.size() == 1) {
mWordComposer.setAutoCapitalized(getCurrentAutoCapsState());
mComposingStateManager.onStartComposingText();
}
ic.setComposingText(getTextWithUnderline(mWordComposer.getTypedWord()), 1);
}
mHandler.postUpdateSuggestions();
} else {
final boolean swapWeakSpace = maybeStripSpaceWhileInBatchEdit(ic, primaryCode,
spaceState, KeyboardActionListener.SUGGESTION_STRIP_COORDINATE == x);
sendKeyCodePoint(primaryCode);
if (swapWeakSpace) {
swapSwapperAndSpaceWhileInBatchEdit(ic);
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) {
mVoiceProxy.handleSeparator();
mComposingStateManager.onFinishComposingText();
// 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
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
ic.beginBatchEdit();
}
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 = mSettingsValues.mAutoCorrectEnabled
&& !mInputAttributes.mInputTypeNoAutoCorrect;
if (shouldAutoCorrect && primaryCode != Keyboard.CODE_SINGLE_QUOTE) {
commitCurrentAutoCorrection(primaryCode, ic);
didAutoCorrect = true;
} else {
commitTyped(ic);
}
}
final boolean swapWeakSpace = maybeStripSpaceWhileInBatchEdit(ic, primaryCode, spaceState,
KeyboardActionListener.SUGGESTION_STRIP_COORDINATE == x);
sendKeyCodePoint(primaryCode);
if (Keyboard.CODE_SPACE == primaryCode) {
if (isSuggestionsRequested()) {
if (maybeDoubleSpaceWhileInBatchEdit(ic)) {
mSpaceState = SPACE_STATE_DOUBLE;
} else if (!isShowingPunctuationList()) {
mSpaceState = SPACE_STATE_WEAK;
}
}
mHandler.startDoubleSpacesTimer();
if (!isCursorTouchingWord()) {
mHandler.cancelUpdateSuggestions();
mHandler.postUpdateBigramPredictions();
}
} else {
if (swapWeakSpace) {
swapSwapperAndSpaceWhileInBatchEdit(ic);
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);
if (ic != null) {
ic.endBatchEdit();
}
return didAutoCorrect;
}
private CharSequence getTextWithUnderline(final CharSequence text) {
return mComposingStateManager.isAutoCorrectionIndicatorOn()
? SuggestionSpanUtils.getTextWithAutoCorrectionIndicatorUnderline(this, text)
: text;
}
private void handleClose() {
commitTyped(getCurrentInputConnection());
mVoiceProxy.handleClose();
requestHideSelf(0);
LatinKeyboardView inputView = mKeyboardSwitcher.getKeyboardView();
if (inputView != null)
inputView.closing();
}
public boolean isSuggestionsRequested() {
return mInputAttributes.mIsSettingsSuggestionStripOn
&& (mCorrectionMode > 0 || isShowingSuggestionsStrip());
}
public boolean isShowingPunctuationList() {
if (mSuggestionsView == null) return false;
return mSettingsValues.mSuggestPuncList == mSuggestionsView.getSuggestions();
}
public boolean isShowingSuggestionsStrip() {
return (mSuggestionVisibility == SUGGESTION_VISIBILILTY_SHOW_VALUE)
|| (mSuggestionVisibility == SUGGESTION_VISIBILILTY_SHOW_ONLY_PORTRAIT_VALUE
&& mDisplayOrientation == Configuration.ORIENTATION_PORTRAIT);
}
public boolean isSuggestionsStripVisible() {
if (mSuggestionsView == null)
return false;
if (mSuggestionsView.isShowingAddToDictionaryHint())
return true;
if (!isShowingSuggestionsStrip())
return false;
if (mInputAttributes.mApplicationSpecifiedCompletionOn)
return true;
return isSuggestionsRequested();
}
public void switchToKeyboardView() {
if (DEBUG) {
Log.d(TAG, "Switch to keyboard view.");
}
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);
}
public void setSuggestions(SuggestedWords words) {
if (mSuggestionsView != null) {
mSuggestionsView.setSuggestions(words);
mKeyboardSwitcher.onAutoCorrectionStateChanged(
words.hasWordAboveAutoCorrectionScoreThreshold());
}
// Put a blue underline to a word in TextView which will be auto-corrected.
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
final boolean oldAutoCorrectionIndicator =
mComposingStateManager.isAutoCorrectionIndicatorOn();
final boolean newAutoCorrectionIndicator = Utils.willAutoCorrect(words);
if (oldAutoCorrectionIndicator != newAutoCorrectionIndicator) {
mComposingStateManager.setAutoCorrectionIndicatorOn(newAutoCorrectionIndicator);
if (DEBUG) {
Log.d(TAG, "Flip the indicator. " + oldAutoCorrectionIndicator
+ " -> " + newAutoCorrectionIndicator);
if (mComposingStateManager.isComposing() && newAutoCorrectionIndicator
!= mComposingStateManager.isAutoCorrectionIndicatorOn()) {
throw new RuntimeException("Couldn't flip the indicator!");
}
}
final CharSequence textWithUnderline =
getTextWithUnderline(mWordComposer.getTypedWord());
if (!TextUtils.isEmpty(textWithUnderline)) {
ic.setComposingText(textWithUnderline, 1);
}
}
}
}
public void updateSuggestions() {
// Check if we have a suggestion engine attached.
if ((mSuggest == null || !isSuggestionsRequested())
&& !mVoiceProxy.isVoiceInputHighlighted()) {
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 InputConnection ic = getCurrentInputConnection();
final CharSequence prevWord;
if (null == ic) {
prevWord = null;
} else {
prevWord = EditingUtils.getPreviousWord(ic, mSettingsValues.mWordSeparators);
}
// getSuggestedWordBuilder handles gracefully a null value of prevWord
final SuggestedWords.Builder builder = mSuggest.getSuggestedWordBuilder(mWordComposer,
prevWord, mKeyboardSwitcher.getKeyboard().getProximityInfo(), mCorrectionMode);
boolean autoCorrectionAvailable = !mInputAttributes.mInputTypeNoAutoCorrect
&& mSuggest.hasAutoCorrection();
final CharSequence typedWord = mWordComposer.getTypedWord();
// Here, we want to promote a whitelisted word if exists.
// TODO: Change this scheme - a boolean is not enough. A whitelisted word may be "valid"
// but still autocorrected from - in the case the whitelist only capitalizes the word.
// The whitelist should be case-insensitive, so it's not possible to be consistent with
// a boolean flag. Right now this is handled with a slight hack in
// WhitelistDictionary#shouldForciblyAutoCorrectFrom.
final int quotesCount = mWordComposer.trailingSingleQuotesCount();
final boolean allowsToBeAutoCorrected = AutoCorrection.allowsToBeAutoCorrected(
mSuggest.getUnigramDictionaries(),
// If the typed string ends with a single quote, for dictionary lookup purposes
// we behave as if the single quote was not here. Here, we are looking up the
// typed string in the dictionary (to avoid autocorrecting from an existing
// word, so for consistency this lookup should be made WITHOUT the trailing
// single quote.
quotesCount > 0
? typedWord.subSequence(0, typedWord.length() - quotesCount) : typedWord,
preferCapitalization());
if (mCorrectionMode == Suggest.CORRECTION_FULL
|| mCorrectionMode == Suggest.CORRECTION_FULL_BIGRAM) {
autoCorrectionAvailable |= (!allowsToBeAutoCorrected);
}
// Don't auto-correct words with multiple capital letter
autoCorrectionAvailable &= !mWordComposer.isMostlyCaps();
// 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 (typedWord != null) {
if (builder.size() > 1 || typedWord.length() == 1 || (!allowsToBeAutoCorrected)
|| mSuggestionsView.isShowingAddToDictionaryHint()) {
builder.setTypedWordValid(!allowsToBeAutoCorrected).setHasMinimalSuggestion(
autoCorrectionAvailable);
} else {
SuggestedWords previousSuggestions = mSuggestionsView.getSuggestions();
if (previousSuggestions == mSettingsValues.mSuggestPuncList) {
if (builder.size() == 0) {
return;
}
previousSuggestions = SuggestedWords.EMPTY;
}
builder.addTypedWordAndPreviousSuggestions(typedWord, previousSuggestions);
}
}
showSuggestions(builder.build(), typedWord);
}
public void showSuggestions(SuggestedWords suggestedWords, CharSequence typedWord) {
final boolean shouldBlockAutoCorrectionBySafetyNet =
Utils.shouldBlockAutoCorrectionBySafetyNet(suggestedWords, mSuggest);
if (shouldBlockAutoCorrectionBySafetyNet) {
suggestedWords.setShouldBlockAutoCorrection();
}
setSuggestions(suggestedWords);
if (suggestedWords.size() > 0) {
if (shouldBlockAutoCorrectionBySafetyNet) {
mWordComposer.setAutoCorrection(typedWord);
} else if (suggestedWords.hasAutoCorrectionWord()) {
mWordComposer.setAutoCorrection(suggestedWords.getWord(1));
} else {
mWordComposer.setAutoCorrection(typedWord);
}
} else {
// TODO: replace with mWordComposer.deleteAutoCorrection()?
mWordComposer.setAutoCorrection(null);
}
setSuggestionStripShown(isSuggestionsStripVisible());
}
private void commitCurrentAutoCorrection(final int separatorCodePoint,
final InputConnection ic) {
// 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);
mExpectingUpdateSelection = true;
commitChosenWord(autoCorrection, LastComposedWord.COMMIT_TYPE_DECIDED_WORD);
// Add the word to the user unigram dictionary if it's not a known word
addToUserUnigramAndBigramDictionaries(autoCorrection,
UserUnigramDictionary.FREQUENCY_FOR_TYPED);
if (!typedWord.equals(autoCorrection) && null != ic) {
// This will make the correction flash for a short while as a visual clue
// to the user that auto-correction happened.
InputConnectionCompatUtils.commitCorrection(ic,
mLastSelectionEnd - typedWord.length(), typedWord, autoCorrection);
}
}
}
@Override
public void pickSuggestionManually(final int index, final CharSequence suggestion) {
mComposingStateManager.onFinishComposingText();
final SuggestedWords suggestions = mSuggestionsView.getSuggestions();
mVoiceProxy.flushAndLogAllTextModificationCounters(index, suggestion,
mSettingsValues.mWordSeparators);
if (mInputAttributes.mApplicationSpecifiedCompletionOn
&& mApplicationSpecifiedCompletions != null
&& index >= 0 && index < mApplicationSpecifiedCompletions.length) {
if (mSuggestionsView != null) {
mSuggestionsView.clear();
}
mKeyboardSwitcher.updateShiftState();
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
ic.beginBatchEdit();
final CompletionInfo completionInfo = mApplicationSpecifiedCompletions[index];
ic.commitCompletion(completionInfo);
ic.endBatchEdit();
}
return;
}
// 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, suggestions.mWords);
// Rely on onCodeInput to do the complicated swapping/stripping logic consistently.
final int primaryCode = suggestion.charAt(0);
onCodeInput(primaryCode, new int[] { primaryCode },
KeyboardActionListener.SUGGESTION_STRIP_COORDINATE,
KeyboardActionListener.SUGGESTION_STRIP_COORDINATE);
return;
}
// We need to log before we commit, because the word composer will store away the user
// typed word.
LatinImeLogger.logOnManualSuggestion(mWordComposer.getTypedWord().toString(),
suggestion.toString(), index, suggestions.mWords);
mExpectingUpdateSelection = true;
commitChosenWord(suggestion, LastComposedWord.COMMIT_TYPE_MANUAL_PICK);
// Add the word to the auto dictionary if it's not a known word
if (index == 0) {
addToUserUnigramAndBigramDictionaries(suggestion,
UserUnigramDictionary.FREQUENCY_FOR_PICKED);
} else {
addToOnlyBigramDictionary(suggestion, 1);
}
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
// We used to look at mCorrectionMode here, but showing the hint should have nothing
// to do with the autocorrection setting.
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, mSettingsValues.mHintToSaveText);
} else {
mHandler.postUpdateSuggestions();
}
}
}
/**
* Commits the chosen word to the text field and saves it for later retrieval.
*/
private void commitChosenWord(final CharSequence bestWord, final int commitType) {
final InputConnection ic = getCurrentInputConnection();
if (ic != null) {
mVoiceProxy.rememberReplacedWord(bestWord, mSettingsValues.mWordSeparators);
if (mSettingsValues.mEnableSuggestionSpanInsertion) {
final SuggestedWords suggestedWords = mSuggestionsView.getSuggestions();
ic.commitText(SuggestionSpanUtils.getTextWithSuggestionSpan(
this, bestWord, suggestedWords), 1);
} else {
ic.commitText(bestWord, 1);
}
}
// 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#canCancelAutoCorrect by string equality of the remembered
// strings.
mLastComposedWord = mWordComposer.commitWord(commitType);
}
private static final WordComposer sEmptyWordComposer = new WordComposer();
public void updateBigramPredictions() {
if (mSuggest == null || !isSuggestionsRequested())
return;
if (!mSettingsValues.mBigramPredictionEnabled) {
setPunctuationSuggestions();
return;
}
final CharSequence prevWord = EditingUtils.getThisWord(getCurrentInputConnection(),
mSettingsValues.mWordSeparators);
SuggestedWords.Builder builder = mSuggest.getSuggestedWordBuilder(sEmptyWordComposer,
prevWord, mKeyboardSwitcher.getKeyboard().getProximityInfo(), mCorrectionMode);
if (builder.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(builder.build(), "");
} else {
if (!isShowingPunctuationList()) setPunctuationSuggestions();
}
}
public void setPunctuationSuggestions() {
setSuggestions(mSettingsValues.mSuggestPuncList);
setSuggestionStripShown(isSuggestionsStripVisible());
}
private void addToUserUnigramAndBigramDictionaries(CharSequence suggestion,
int frequencyDelta) {
checkAddToDictionary(suggestion, frequencyDelta, false);
}
private void addToOnlyBigramDictionary(CharSequence suggestion, int frequencyDelta) {
checkAddToDictionary(suggestion, frequencyDelta, true);
}
/**
* Adds to the UserBigramDictionary and/or UserUnigramDictionary
* @param selectedANotTypedWord true if it should be added to bigram dictionary if possible
*/
private void checkAddToDictionary(CharSequence suggestion, int frequencyDelta,
boolean selectedANotTypedWord) {
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 (null != mSuggest && null != mUserUnigramDictionary) {
final boolean selectedATypedWordAndItsInUserUnigramDic =
!selectedANotTypedWord && mUserUnigramDictionary.isValidWord(suggestion);
final boolean isValidWord = AutoCorrection.isValidWord(
mSuggest.getUnigramDictionaries(), suggestion, true);
final boolean needsToAddToUserUnigramDictionary =
selectedATypedWordAndItsInUserUnigramDic || !isValidWord;
if (needsToAddToUserUnigramDictionary) {
mUserUnigramDictionary.addWord(suggestion.toString(), frequencyDelta);
}
}
if (mUserBigramDictionary != null) {
// We don't want to register as bigrams words separated by a separator.
// For example "I will, and you too" : we don't want the pair ("will" "and") to be
// a bigram.
final InputConnection ic = getCurrentInputConnection();
if (null != ic) {
final CharSequence prevWord =
EditingUtils.getPreviousWord(ic, mSettingsValues.mWordSeparators);
if (!TextUtils.isEmpty(prevWord)) {
mUserBigramDictionary.addBigrams(prevWord.toString(), suggestion.toString());
}
}
}
}
public boolean isCursorTouchingWord() {
final InputConnection ic = getCurrentInputConnection();
if (ic == null) return false;
CharSequence toLeft = ic.getTextBeforeCursor(1, 0);
CharSequence toRight = ic.getTextAfterCursor(1, 0);
if (!TextUtils.isEmpty(toLeft)
&& !mSettingsValues.isWordSeparator(toLeft.charAt(0))) {
return true;
}
if (!TextUtils.isEmpty(toRight)
&& !mSettingsValues.isWordSeparator(toRight.charAt(0))) {
return true;
}
return false;
}
// "ic" must not be null
private static boolean sameAsTextBeforeCursor(final InputConnection ic,
final CharSequence text) {
final CharSequence beforeText = ic.getTextBeforeCursor(text.length(), 0);
return TextUtils.equals(text, beforeText);
}
// "ic" must not be 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 InputConnection ic) {
// Bail out if the cursor is not at the end of a word (cursor must be preceded by
// non-whitespace, non-separator, non-start-of-text)
// Example ("|" is the cursor here) : <SOL>"|a" " |a" " | " all get rejected here.
final CharSequence textBeforeCursor = ic.getTextBeforeCursor(1, 0);
if (TextUtils.isEmpty(textBeforeCursor)
|| mSettingsValues.isWordSeparator(textBeforeCursor.charAt(0))) return;
// Bail out if the cursor is in the middle of a word (cursor must be followed by whitespace,
// separator or end of line/text)
// Example: "test|"<EOL> "te|st" get rejected here
final CharSequence textAfterCursor = ic.getTextAfterCursor(1, 0);
if (!TextUtils.isEmpty(textAfterCursor)
&& !mSettingsValues.isWordSeparator(textAfterCursor.charAt(0))) return;
// Bail out if word before cursor is 0-length or a single non letter (like an apostrophe)
// Example: " -|" gets rejected here but "e-|" and "e|" are okay
CharSequence word = EditingUtils.getWordAtCursor(ic, mSettingsValues.mWordSeparators);
// We don't suggest on leading single quotes, so we have to remove them from the word if
// it starts with single quotes.
while (!TextUtils.isEmpty(word) && Keyboard.CODE_SINGLE_QUOTE == word.charAt(0)) {
word = word.subSequence(1, word.length());
}
if (TextUtils.isEmpty(word)) return;
final char firstChar = word.charAt(0); // we just tested that word is not empty
if (word.length() == 1 && !Character.isLetter(firstChar)) return;
// We only suggest on words that start with a letter or a symbol that is excluded from
// word separators (see #handleCharacterWhileInBatchEdit).
if (!(isAlphabet(firstChar)
|| mSettingsValues.isSymbolExcludedFromWordSeparators(firstChar))) {
return;
}
// Okay, we are at the end of a word. Restart suggestions.
restartSuggestionsOnWordBeforeCursor(ic, word);
}
// "ic" must not be null
private void restartSuggestionsOnWordBeforeCursor(final InputConnection ic,
final CharSequence word) {
mWordComposer.setComposingWord(word, mKeyboardSwitcher.getKeyboard());
mComposingStateManager.onStartComposingText();
ic.deleteSurroundingText(word.length(), 0);
ic.setComposingText(word, 1);
mHandler.postUpdateSuggestions();
}
// "ic" must not be null
private void cancelAutoCorrect(final InputConnection ic) {
final String originallyTypedWord = mLastComposedWord.mTypedWord;
final CharSequence autoCorrectedTo = mLastComposedWord.mAutoCorrection;
final int cancelLength = autoCorrectedTo.length();
final CharSequence separator = ic.getTextBeforeCursor(1, 0);
if (DEBUG) {
if (mWordComposer.isComposingWord()) {
throw new RuntimeException("cancelAutoCorrect, but we are composing a word");
}
final String wordBeforeCursor =
ic.getTextBeforeCursor(cancelLength + 1, 0).subSequence(0, cancelLength)
.toString();
if (!TextUtils.equals(autoCorrectedTo, wordBeforeCursor)) {
throw new RuntimeException("cancelAutoCorrect check failed: we thought we were "
+ "reverting \"" + autoCorrectedTo
+ "\", but before the cursor we found \"" + wordBeforeCursor + "\"");
}
if (TextUtils.equals(originallyTypedWord, wordBeforeCursor)) {
throw new RuntimeException("cancelAutoCorrect check failed: we wanted to cancel "
+ "auto correction and revert to \"" + originallyTypedWord
+ "\" but we found this very string before the cursor");
}
}
ic.deleteSurroundingText(cancelLength + 1, 0);
ic.commitText(originallyTypedWord, 1);
// Re-insert the separator
ic.commitText(separator, 1);
mLastComposedWord = LastComposedWord.NOT_A_COMPOSED_WORD;
Utils.Stats.onSeparator(separator.charAt(0), WordComposer.NOT_A_COORDINATE,
WordComposer.NOT_A_COORDINATE);
mHandler.cancelUpdateBigramPredictions();
mHandler.postUpdateSuggestions();
}
// "ic" must not be null
private void restartSuggestionsOnManuallyPickedTypedWord(final InputConnection ic) {
// Note: this relies on the last word still being held in the WordComposer, in
// the field for suggestion resuming.
// Note: in the interest of code simplicity, we may want to just call
// restartSuggestionsOnWordBeforeCursorIfAtEndOfWord instead, but retrieving
// the old WordComposer allows to reuse the actual typed coordinates.
mWordComposer.resumeSuggestionOnLastComposedWord(mLastComposedWord);
// We resume suggestion, and then we want to set the composing text to the content
// of the word composer again. But since we just manually picked a word, there is
// no composing text at the moment, so we have to delete the word before we set a
// new composing text.
final int restartLength = mWordComposer.size();
if (DEBUG) {
final String wordBeforeCursor = ic.getTextBeforeCursor(restartLength, 0).toString();
if (!TextUtils.equals(mWordComposer.getTypedWord(), wordBeforeCursor)) {
throw new RuntimeException("restartSuggestionsOnManuallyPickedTypedWord "
+ "check failed: we thought we were reverting \""
+ mWordComposer.getTypedWord()
+ "\", but before the cursor we found \""
+ wordBeforeCursor + "\"");
}
}
ic.deleteSurroundingText(restartLength, 0);
mComposingStateManager.onStartComposingText();
ic.setComposingText(mWordComposer.getTypedWord(), 1);
mHandler.cancelUpdateBigramPredictions();
mHandler.postUpdateSuggestions();
}
// "ic" must not be null
private boolean revertDoubleSpaceWhileInBatchEdit(final InputConnection ic) {
mHandler.cancelDoubleSpacesTimer();
// Here we test whether we indeed have a period and a space before us. This should not
// be needed, but it's there just in case something went wrong.
final CharSequence textBeforeCursor = ic.getTextBeforeCursor(2, 0);
if (!". ".equals(textBeforeCursor)) {
// Theoretically we should not be coming here if there isn't ". " before the
// cursor, but the application may be changing the text while we are typing, so
// anything goes. We should not crash.
Log.d(TAG, "Tried to revert double-space combo but we didn't find "
+ "\". \" just before the cursor.");
return false;
}
ic.deleteSurroundingText(2, 0);
ic.commitText(" ", 1);
return true;
}
private static boolean revertSwapPunctuation(final InputConnection ic) {
// Here we test whether we indeed have a space and something else before us. This should not
// be needed, but it's there just in case something went wrong.
final CharSequence textBeforeCursor = ic.getTextBeforeCursor(2, 0);
// NOTE: This does not work with surrogate pairs. Hopefully when the keyboard is able to
// enter surrogate pairs this code will have been removed.
if (TextUtils.isEmpty(textBeforeCursor)
|| (Keyboard.CODE_SPACE != textBeforeCursor.charAt(1))) {
// We may only come here if the application is changing the text while we are typing.
// This is quite a broken case, but not logically impossible, so we shouldn't crash,
// but some debugging log may be in order.
Log.d(TAG, "Tried to revert a swap of punctuation but we didn't "
+ "find a space just before the cursor.");
return false;
}
ic.beginBatchEdit();
ic.deleteSurroundingText(2, 0);
ic.commitText(" " + textBeforeCursor.subSequence(0, 1), 1);
ic.endBatchEdit();
return true;
}
public boolean isWordSeparator(int code) {
return mSettingsValues.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() {
if (!CAN_HANDLE_ON_CURRENT_INPUT_METHOD_SUBTYPE_CHANGED) {
// Before Honeycomb, Voice IME is in LatinIME and it changes the current input view,
// so that we need to re-create the keyboard input view here.
setInputView(mKeyboardSwitcher.onCreateInputView());
}
// 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(), mSettingsValues);
}
initSuggest();
loadSettings();
}
public void hapticAndAudioFeedback(int primaryCode) {
vibrate();
playKeyClick(primaryCode);
}
@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;
}
}
}
// 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(AudioManager.RINGER_MODE_CHANGED_ACTION)) {
updateRingerMode();
} else if (action.equals(ConnectivityManager.CONNECTIVITY_ACTION)) {
mSubtypeSwitcher.onNetworkStateChanged(intent);
}
}
};
// update flags for silent mode
private void updateRingerMode() {
if (mAudioManager == null) {
mAudioManager = (AudioManager) getSystemService(Context.AUDIO_SERVICE);
if (mAudioManager == null) return;
}
mSilentModeOn = (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.getKeyboardView() != null) {
updateRingerMode();
}
}
if (isSoundOn()) {
final int sound;
switch (primaryCode) {
case Keyboard.CODE_DELETE:
sound = AudioManager.FX_KEYPRESS_DELETE;
break;
case Keyboard.CODE_ENTER:
sound = AudioManager.FX_KEYPRESS_RETURN;
break;
case Keyboard.CODE_SPACE:
sound = AudioManager.FX_KEYPRESS_SPACEBAR;
break;
default:
sound = AudioManager.FX_KEYPRESS_STANDARD;
break;
}
mAudioManager.playSoundEffect(sound, mSettingsValues.mFxVolume);
}
}
public void vibrate() {
if (!mSettingsValues.mVibrateOn) {
return;
}
if (mSettingsValues.mKeypressVibrationDuration < 0) {
// Go ahead with the system default
LatinKeyboardView inputView = mKeyboardSwitcher.getKeyboardView();
if (inputView != null) {
inputView.performHapticFeedback(
HapticFeedbackConstants.KEYBOARD_TAP,
HapticFeedbackConstants.FLAG_IGNORE_GLOBAL_SETTING);
}
} else if (mVibrator != null) {
mVibrator.vibrate(mSettingsValues.mKeypressVibrationDuration);
}
}
public boolean isAutoCapitalized() {
return mWordComposer.isAutoCapitalized();
}
boolean isSoundOn() {
return mSettingsValues.mSoundOn && !mSilentModeOn;
}
private void updateCorrectionMode() {
// TODO: cleanup messy flags
final boolean shouldAutoCorrect = mSettingsValues.mAutoCorrectEnabled
&& !mInputAttributes.mInputTypeNoAutoCorrect;
mCorrectionMode = shouldAutoCorrect ? Suggest.CORRECTION_FULL : Suggest.CORRECTION_NONE;
mCorrectionMode = (mSettingsValues.mBigramSuggestionEnabled && shouldAutoCorrect)
? Suggest.CORRECTION_FULL_BIGRAM : mCorrectionMode;
}
private void updateSuggestionVisibility(final Resources res) {
final String suggestionVisiblityStr = mSettingsValues.mShowSuggestionsSetting;
for (int visibility : SUGGESTION_VISIBILITY_VALUE_ARRAY) {
if (suggestionVisiblityStr.equals(res.getString(visibility))) {
mSuggestionVisibility = visibility;
break;
}
}
}
protected void launchSettings() {
launchSettingsClass(Settings.class);
}
public void launchDebugSettings() {
launchSettingsClass(DebugSettings.class);
}
protected void launchSettingsClass(Class<? extends PreferenceActivity> 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 DialogInterface.OnClickListener listener = new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface di, int position) {
di.dismiss();
switch (position) {
case 0:
Intent intent = CompatUtils.getInputLanguageSelectionIntent(
Utils.getInputMethodId(mImm, getPackageName()),
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);
showOptionDialogInternal(builder.create());
}
private void showOptionsMenu() {
final CharSequence title = getString(R.string.english_ime_input_options);
final CharSequence[] items = new CharSequence[] {
getString(R.string.selectInputMethod),
getString(R.string.english_ime_settings),
};
final DialogInterface.OnClickListener listener = new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface di, int position) {
di.dismiss();
switch (position) {
case 0:
mImm.showInputMethodPicker();
break;
case 1:
launchSettings();
break;
}
}
};
final AlertDialog.Builder builder = new AlertDialog.Builder(this)
.setItems(items, listener)
.setTitle(title);
showOptionDialogInternal(builder.create());
}
@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(" mIsSuggestionsRequested=" + mInputAttributes.mIsSettingsSuggestionStripOn);
p.println(" mCorrectionMode=" + mCorrectionMode);
p.println(" isComposingWord=" + mWordComposer.isComposingWord());
p.println(" mAutoCorrectEnabled=" + mSettingsValues.mAutoCorrectEnabled);
p.println(" mSoundOn=" + mSettingsValues.mSoundOn);
p.println(" mVibrateOn=" + mSettingsValues.mVibrateOn);
p.println(" mKeyPreviewPopupOn=" + mSettingsValues.mKeyPreviewPopupOn);
p.println(" mInputAttributes=" + mInputAttributes.toString());
}
}