LatinIME/java/src/com/android/inputmethod/keyboard/KeyboardSwitcher.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.keyboard;
import android.content.Context;
import android.content.SharedPreferences;
import android.content.res.Resources;
import android.util.Log;
import android.view.ContextThemeWrapper;
import android.view.InflateException;
import android.view.LayoutInflater;
import android.view.View;
import android.view.inputmethod.EditorInfo;
import com.android.inputmethod.accessibility.AccessibleKeyboardViewProxy;
import com.android.inputmethod.compat.InputMethodManagerCompatWrapper;
import com.android.inputmethod.keyboard.internal.ModifierKeyState;
import com.android.inputmethod.keyboard.internal.ShiftKeyState;
import com.android.inputmethod.latin.LatinIME;
import com.android.inputmethod.latin.LatinImeLogger;
import com.android.inputmethod.latin.R;
import com.android.inputmethod.latin.Settings;
import com.android.inputmethod.latin.SubtypeSwitcher;
import com.android.inputmethod.latin.Utils;
import java.lang.ref.SoftReference;
import java.util.HashMap;
import java.util.Locale;
public class KeyboardSwitcher implements SharedPreferences.OnSharedPreferenceChangeListener {
private static final String TAG = KeyboardSwitcher.class.getSimpleName();
private static final boolean DEBUG_CACHE = LatinImeLogger.sDBG;
public static final boolean DEBUG_STATE = false;
public static final String PREF_KEYBOARD_LAYOUT = "pref_keyboard_layout_20100902";
private static final int[] KEYBOARD_THEMES = {
R.style.KeyboardTheme,
R.style.KeyboardTheme_HighContrast,
R.style.KeyboardTheme_Stone,
R.style.KeyboardTheme_Stone_Bold,
R.style.KeyboardTheme_Gingerbread,
R.style.KeyboardTheme_IceCreamSandwich,
};
private SubtypeSwitcher mSubtypeSwitcher;
private SharedPreferences mPrefs;
private View mCurrentInputView;
private LatinKeyboardView mKeyboardView;
private LatinIME mInputMethodService;
// TODO: Combine these key state objects with auto mode switch state.
private ShiftKeyState mShiftKeyState = new ShiftKeyState("Shift");
private ModifierKeyState mSymbolKeyState = new ModifierKeyState("Symbol");
private KeyboardId mSymbolsId;
private KeyboardId mSymbolsShiftedId;
private KeyboardId mCurrentId;
private final HashMap<KeyboardId, SoftReference<LatinKeyboard>> mKeyboardCache =
new HashMap<KeyboardId, SoftReference<LatinKeyboard>>();
private EditorInfo mAttribute;
private boolean mIsSymbols;
/** mIsAutoCorrectionActive indicates that auto corrected word will be input instead of
* what user actually typed. */
private boolean mIsAutoCorrectionActive;
private boolean mVoiceKeyEnabled;
private boolean mVoiceButtonOnPrimary;
// TODO: Encapsulate these state handling to separate class and combine with ShiftKeyState
// and ModifierKeyState.
private static final int SWITCH_STATE_ALPHA = 0;
private static final int SWITCH_STATE_SYMBOL_BEGIN = 1;
private static final int SWITCH_STATE_SYMBOL = 2;
// The following states are used only on the distinct multi-touch panel devices.
private static final int SWITCH_STATE_MOMENTARY_ALPHA_AND_SYMBOL = 3;
private static final int SWITCH_STATE_MOMENTARY_SYMBOL_AND_MORE = 4;
private static final int SWITCH_STATE_CHORDING_ALPHA = 5;
private static final int SWITCH_STATE_CHORDING_SYMBOL = 6;
private int mSwitchState = SWITCH_STATE_ALPHA;
// Indicates whether or not we have the settings key in option of settings
private boolean mSettingsKeyEnabledInSettings;
private static final int SETTINGS_KEY_MODE_AUTO = R.string.settings_key_mode_auto;
private static final int SETTINGS_KEY_MODE_ALWAYS_SHOW =
R.string.settings_key_mode_always_show;
// NOTE: No need to have SETTINGS_KEY_MODE_ALWAYS_HIDE here because it's not being referred to
// in the source code now.
// Default is SETTINGS_KEY_MODE_AUTO.
private static final int DEFAULT_SETTINGS_KEY_MODE = SETTINGS_KEY_MODE_AUTO;
private int mThemeIndex = -1;
private Context mThemeContext;
private int mKeyboardWidth;
private static final KeyboardSwitcher sInstance = new KeyboardSwitcher();
public static KeyboardSwitcher getInstance() {
return sInstance;
}
private KeyboardSwitcher() {
// Intentional empty constructor for singleton.
}
public static void init(LatinIME ims, SharedPreferences prefs) {
sInstance.mInputMethodService = ims;
sInstance.mPrefs = prefs;
sInstance.mSubtypeSwitcher = SubtypeSwitcher.getInstance();
sInstance.setContextThemeWrapper(ims, getKeyboardThemeIndex(ims, prefs));
prefs.registerOnSharedPreferenceChangeListener(sInstance);
}
private static int getKeyboardThemeIndex(Context context, SharedPreferences prefs) {
final String defaultThemeId = context.getString(R.string.config_default_keyboard_theme_id);
final String themeId = prefs.getString(PREF_KEYBOARD_LAYOUT, defaultThemeId);
try {
final int themeIndex = Integer.valueOf(themeId);
if (themeIndex >= 0 && themeIndex < KEYBOARD_THEMES.length)
return themeIndex;
} catch (NumberFormatException e) {
// Format error, keyboard theme is default to 0.
}
Log.w(TAG, "Illegal keyboard theme in preference: " + themeId + ", default to 0");
return 0;
}
private void setContextThemeWrapper(Context context, int themeIndex) {
if (mThemeIndex != themeIndex) {
mThemeIndex = themeIndex;
mThemeContext = new ContextThemeWrapper(context, KEYBOARD_THEMES[themeIndex]);
mKeyboardCache.clear();
}
}
public void loadKeyboard(EditorInfo attribute, boolean voiceKeyEnabled,
boolean voiceButtonOnPrimary) {
mSwitchState = SWITCH_STATE_ALPHA;
try {
final boolean isSymbols = (mCurrentId != null) ? mCurrentId.isSymbolsKeyboard() : false;
loadKeyboardInternal(attribute, voiceKeyEnabled, voiceButtonOnPrimary, isSymbols);
} catch (RuntimeException e) {
// Get KeyboardId to record which keyboard has been failed to load.
final KeyboardId id = getKeyboardId(attribute, false);
Log.w(TAG, "loading keyboard failed: " + id, e);
LatinImeLogger.logOnException(id.toString(), e);
}
}
private void loadKeyboardInternal(EditorInfo attribute, boolean voiceButtonEnabled,
boolean voiceButtonOnPrimary, boolean isSymbols) {
if (mKeyboardView == null) return;
mAttribute = attribute;
mVoiceKeyEnabled = voiceButtonEnabled;
mVoiceButtonOnPrimary = voiceButtonOnPrimary;
mIsSymbols = isSymbols;
// Update the settings key state because number of enabled IMEs could have been changed
mSettingsKeyEnabledInSettings = getSettingsKeyMode(mPrefs, mInputMethodService);
final KeyboardId id = getKeyboardId(attribute, isSymbols);
// Note: This comment is only applied for phone number keyboard layout.
// On non-xlarge device, "@integer/key_switch_alpha_symbol" key code is used to switch
// between "phone keyboard" and "phone symbols keyboard". But on xlarge device,
// "@integer/key_shift" key code is used for that purpose in order to properly display
// "more" and "locked more" key labels. To achieve these behavior, we should initialize
// mSymbolsId and mSymbolsShiftedId to "phone keyboard" and "phone symbols keyboard"
// respectively here for xlarge device's layout switching.
mSymbolsId = makeSiblingKeyboardId(id, R.xml.kbd_symbols, R.xml.kbd_phone);
mSymbolsShiftedId = makeSiblingKeyboardId(
id, R.xml.kbd_symbols_shift, R.xml.kbd_phone_symbols);
setKeyboard(getKeyboard(id));
}
public void onSizeChanged() {
final int width = mInputMethodService.getWindow().getWindow().getDecorView().getWidth();
if (width == 0 || mCurrentId == null)
return;
mKeyboardWidth = width;
// Set keyboard with new width.
final KeyboardId newId = mCurrentId.cloneWithNewGeometry(width);
setKeyboard(getKeyboard(newId));
}
private void setKeyboard(final Keyboard newKeyboard) {
final Keyboard oldKeyboard = mKeyboardView.getKeyboard();
mKeyboardView.setKeyboard(newKeyboard);
mCurrentId = newKeyboard.mId;
final Resources res = mInputMethodService.getResources();
mKeyboardView.setKeyPreviewPopupEnabled(
Settings.Values.isKeyPreviewPopupEnabled(mPrefs, res),
Settings.Values.getKeyPreviewPopupDismissDelay(mPrefs, res));
final boolean localeChanged = (oldKeyboard == null)
|| !newKeyboard.mId.mLocale.equals(oldKeyboard.mId.mLocale);
mInputMethodService.mHandler.startDisplayLanguageOnSpacebar(localeChanged);
}
private LatinKeyboard getKeyboard(KeyboardId id) {
final SoftReference<LatinKeyboard> ref = mKeyboardCache.get(id);
LatinKeyboard keyboard = (ref == null) ? null : ref.get();
if (keyboard == null) {
final Resources res = mInputMethodService.getResources();
final Locale savedLocale = Utils.setSystemLocale(res,
mSubtypeSwitcher.getInputLocale());
keyboard = new LatinKeyboard(mThemeContext, id, id.mWidth);
if (id.mEnableShiftLock) {
keyboard.enableShiftLock();
}
mKeyboardCache.put(id, new SoftReference<LatinKeyboard>(keyboard));
if (DEBUG_CACHE)
Log.d(TAG, "keyboard cache size=" + mKeyboardCache.size() + ": "
+ ((ref == null) ? "LOAD" : "GCed") + " id=" + id);
Utils.setSystemLocale(res, savedLocale);
} else if (DEBUG_CACHE) {
Log.d(TAG, "keyboard cache size=" + mKeyboardCache.size() + ": HIT id=" + id);
}
keyboard.onAutoCorrectionStateChanged(mIsAutoCorrectionActive);
keyboard.setShifted(false);
// If the cached keyboard had been switched to another keyboard while the language was
// displayed on its spacebar, it might have had arbitrary text fade factor. In such case,
// we should reset the text fade factor. It is also applicable to shortcut key.
keyboard.setSpacebarTextFadeFactor(0.0f, null);
keyboard.updateShortcutKey(mSubtypeSwitcher.isShortcutImeReady(), null);
keyboard.setSpacebarSlidingLanguageSwitchDiff(0);
return keyboard;
}
private boolean hasVoiceKey(boolean isSymbols) {
return mVoiceKeyEnabled && (isSymbols != mVoiceButtonOnPrimary);
}
private boolean hasSettingsKey(EditorInfo attribute) {
return mSettingsKeyEnabledInSettings
&& !Utils.inPrivateImeOptions(mInputMethodService.getPackageName(),
LatinIME.IME_OPTION_NO_SETTINGS_KEY, attribute);
}
private KeyboardId getKeyboardId(EditorInfo attribute, boolean isSymbols) {
final int mode = Utils.getKeyboardMode(attribute);
final boolean hasVoiceKey = hasVoiceKey(isSymbols);
final int xmlId;
final boolean enableShiftLock;
if (isSymbols) {
if (mode == KeyboardId.MODE_PHONE) {
xmlId = R.xml.kbd_phone_symbols;
} else if (mode == KeyboardId.MODE_NUMBER) {
// Note: MODE_NUMBER keyboard layout has no "switch alpha symbol" key.
xmlId = R.xml.kbd_number;
} else {
xmlId = R.xml.kbd_symbols;
}
enableShiftLock = false;
} else {
if (mode == KeyboardId.MODE_PHONE) {
xmlId = R.xml.kbd_phone;
enableShiftLock = false;
} else if (mode == KeyboardId.MODE_NUMBER) {
xmlId = R.xml.kbd_number;
enableShiftLock = false;
} else {
xmlId = R.xml.kbd_qwerty;
enableShiftLock = true;
}
}
final boolean hasSettingsKey = hasSettingsKey(attribute);
final int f2KeyMode = getF2KeyMode(mPrefs, mInputMethodService, attribute);
final boolean clobberSettingsKey = Utils.inPrivateImeOptions(
mInputMethodService.getPackageName(), LatinIME.IME_OPTION_NO_SETTINGS_KEY,
attribute);
final Resources res = mInputMethodService.getResources();
final int orientation = res.getConfiguration().orientation;
if (mKeyboardWidth == 0)
mKeyboardWidth = res.getDisplayMetrics().widthPixels;
final Locale locale = mSubtypeSwitcher.getInputLocale();
return new KeyboardId(
res.getResourceEntryName(xmlId), xmlId, locale, orientation, mKeyboardWidth,
mode, attribute, hasSettingsKey, f2KeyMode, clobberSettingsKey, mVoiceKeyEnabled,
hasVoiceKey, enableShiftLock);
}
private KeyboardId makeSiblingKeyboardId(KeyboardId base, int alphabet, int phone) {
final int xmlId = base.mMode == KeyboardId.MODE_PHONE ? phone : alphabet;
final String xmlName = mInputMethodService.getResources().getResourceEntryName(xmlId);
return base.cloneWithNewLayout(xmlName, xmlId);
}
public int getKeyboardMode() {
return mCurrentId != null ? mCurrentId.mMode : KeyboardId.MODE_TEXT;
}
public boolean isAlphabetMode() {
return mCurrentId != null && mCurrentId.isAlphabetKeyboard();
}
public boolean isInputViewShown() {
return mCurrentInputView != null && mCurrentInputView.isShown();
}
public boolean isKeyboardAvailable() {
if (mKeyboardView != null)
return mKeyboardView.getKeyboard() != null;
return false;
}
public LatinKeyboard getLatinKeyboard() {
if (mKeyboardView != null) {
final Keyboard keyboard = mKeyboardView.getKeyboard();
if (keyboard instanceof LatinKeyboard)
return (LatinKeyboard)keyboard;
}
return null;
}
public boolean isShiftedOrShiftLocked() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null)
return latinKeyboard.isShiftedOrShiftLocked();
return false;
}
public boolean isShiftLocked() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null)
return latinKeyboard.isShiftLocked();
return false;
}
public boolean isAutomaticTemporaryUpperCase() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null)
return latinKeyboard.isAutomaticTemporaryUpperCase();
return false;
}
public boolean isManualTemporaryUpperCase() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null)
return latinKeyboard.isManualTemporaryUpperCase();
return false;
}
private boolean isManualTemporaryUpperCaseFromAuto() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null)
return latinKeyboard.isManualTemporaryUpperCaseFromAuto();
return false;
}
private void setManualTemporaryUpperCase(boolean shifted) {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null) {
// On non-distinct multi touch panel device, we should also turn off the shift locked
// state when shift key is pressed to go to normal mode.
// On the other hand, on distinct multi touch panel device, turning off the shift locked
// state with shift key pressing is handled by onReleaseShift().
if (!hasDistinctMultitouch() && !shifted && latinKeyboard.isShiftLocked()) {
latinKeyboard.setShiftLocked(false);
}
if (latinKeyboard.setShifted(shifted)) {
mKeyboardView.invalidateAllKeys();
}
}
}
private void setShiftLocked(boolean shiftLocked) {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null && latinKeyboard.setShiftLocked(shiftLocked)) {
mKeyboardView.invalidateAllKeys();
}
}
/**
* Toggle keyboard shift state triggered by user touch event.
*/
public void toggleShift() {
mInputMethodService.mHandler.cancelUpdateShiftState();
if (DEBUG_STATE)
Log.d(TAG, "toggleShift:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + mShiftKeyState);
if (isAlphabetMode()) {
setManualTemporaryUpperCase(!isShiftedOrShiftLocked());
} else {
toggleShiftInSymbol();
}
}
public void toggleCapsLock() {
mInputMethodService.mHandler.cancelUpdateShiftState();
if (DEBUG_STATE)
Log.d(TAG, "toggleCapsLock:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + mShiftKeyState);
if (isAlphabetMode()) {
if (isShiftLocked()) {
// Shift key is long pressed while caps lock state, we will toggle back to normal
// state. And mark as if shift key is released.
setShiftLocked(false);
mShiftKeyState.onRelease();
} else {
setShiftLocked(true);
}
}
}
private void setAutomaticTemporaryUpperCase() {
LatinKeyboard latinKeyboard = getLatinKeyboard();
if (latinKeyboard != null) {
latinKeyboard.setAutomaticTemporaryUpperCase();
mKeyboardView.invalidateAllKeys();
}
}
/**
* Update keyboard shift state triggered by connected EditText status change.
*/
public void updateShiftState() {
final ShiftKeyState shiftKeyState = mShiftKeyState;
if (DEBUG_STATE)
Log.d(TAG, "updateShiftState:"
+ " autoCaps=" + mInputMethodService.getCurrentAutoCapsState()
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + shiftKeyState);
if (isAlphabetMode()) {
if (!isShiftLocked() && !shiftKeyState.isIgnoring()) {
if (shiftKeyState.isReleasing() && mInputMethodService.getCurrentAutoCapsState()) {
// Only when shift key is releasing, automatic temporary upper case will be set.
setAutomaticTemporaryUpperCase();
} else {
setManualTemporaryUpperCase(shiftKeyState.isMomentary());
}
}
} else {
// In symbol keyboard mode, we should clear shift key state because only alphabet
// keyboard has shift key.
shiftKeyState.onRelease();
}
}
public void changeKeyboardMode() {
if (DEBUG_STATE)
Log.d(TAG, "changeKeyboardMode:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + mShiftKeyState);
toggleKeyboardMode();
if (isShiftLocked() && isAlphabetMode())
setShiftLocked(true);
updateShiftState();
}
public void onPressShift(boolean withSliding) {
if (!isKeyboardAvailable())
return;
ShiftKeyState shiftKeyState = mShiftKeyState;
if (DEBUG_STATE)
Log.d(TAG, "onPressShift:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + shiftKeyState + " sliding=" + withSliding);
if (isAlphabetMode()) {
if (isShiftLocked()) {
// Shift key is pressed while caps lock state, we will treat this state as shifted
// caps lock state and mark as if shift key pressed while normal state.
shiftKeyState.onPress();
setManualTemporaryUpperCase(true);
} else if (isAutomaticTemporaryUpperCase()) {
// Shift key is pressed while automatic temporary upper case, we have to move to
// manual temporary upper case.
shiftKeyState.onPress();
setManualTemporaryUpperCase(true);
} else if (isShiftedOrShiftLocked()) {
// In manual upper case state, we just record shift key has been pressing while
// shifted state.
shiftKeyState.onPressOnShifted();
} else {
// In base layout, chording or manual temporary upper case mode is started.
shiftKeyState.onPress();
toggleShift();
}
} else {
// In symbol mode, just toggle symbol and symbol more keyboard.
shiftKeyState.onPress();
toggleShift();
mSwitchState = SWITCH_STATE_MOMENTARY_SYMBOL_AND_MORE;
}
}
public void onReleaseShift(boolean withSliding) {
if (!isKeyboardAvailable())
return;
ShiftKeyState shiftKeyState = mShiftKeyState;
if (DEBUG_STATE)
Log.d(TAG, "onReleaseShift:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + shiftKeyState + " sliding=" + withSliding);
if (isAlphabetMode()) {
if (shiftKeyState.isMomentary()) {
// After chording input while normal state.
toggleShift();
} else if (isShiftLocked() && !shiftKeyState.isIgnoring() && !withSliding) {
// Shift has been pressed without chording while caps lock state.
toggleCapsLock();
// To be able to turn off caps lock by "double tap" on shift key, we should ignore
// the second tap of the "double tap" from now for a while because we just have
// already turned off caps lock above.
mKeyboardView.startIgnoringDoubleTap();
} else if (isShiftedOrShiftLocked() && shiftKeyState.isPressingOnShifted()
&& !withSliding) {
// Shift has been pressed without chording while shifted state.
toggleShift();
} else if (isManualTemporaryUpperCaseFromAuto() && shiftKeyState.isPressing()
&& !withSliding) {
// Shift has been pressed without chording while manual temporary upper case
// transited from automatic temporary upper case.
toggleShift();
}
} else {
// In symbol mode, snap back to the previous keyboard mode if the user chords the shift
// key and another key, then releases the shift key.
if (mSwitchState == SWITCH_STATE_CHORDING_SYMBOL) {
toggleShift();
}
}
shiftKeyState.onRelease();
}
public void onPressSymbol() {
if (DEBUG_STATE)
Log.d(TAG, "onPressSymbol:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " symbolKeyState=" + mSymbolKeyState);
changeKeyboardMode();
mSymbolKeyState.onPress();
mSwitchState = SWITCH_STATE_MOMENTARY_ALPHA_AND_SYMBOL;
}
public void onReleaseSymbol() {
if (DEBUG_STATE)
Log.d(TAG, "onReleaseSymbol:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " symbolKeyState=" + mSymbolKeyState);
// Snap back to the previous keyboard mode if the user chords the mode change key and
// another key, then releases the mode change key.
if (mSwitchState == SWITCH_STATE_CHORDING_ALPHA) {
changeKeyboardMode();
}
mSymbolKeyState.onRelease();
}
public void onOtherKeyPressed() {
if (DEBUG_STATE)
Log.d(TAG, "onOtherKeyPressed:"
+ " keyboard=" + getLatinKeyboard().getKeyboardShiftState()
+ " shiftKeyState=" + mShiftKeyState
+ " symbolKeyState=" + mSymbolKeyState);
mShiftKeyState.onOtherKeyPressed();
mSymbolKeyState.onOtherKeyPressed();
}
public void onCancelInput() {
// Snap back to the previous keyboard mode if the user cancels sliding input.
if (getPointerCount() == 1) {
if (mSwitchState == SWITCH_STATE_MOMENTARY_ALPHA_AND_SYMBOL) {
changeKeyboardMode();
} else if (mSwitchState == SWITCH_STATE_MOMENTARY_SYMBOL_AND_MORE) {
toggleShift();
}
}
}
private void toggleShiftInSymbol() {
if (isAlphabetMode())
return;
final LatinKeyboard keyboard;
if (mCurrentId.equals(mSymbolsId) || !mCurrentId.equals(mSymbolsShiftedId)) {
keyboard = getKeyboard(mSymbolsShiftedId);
// Symbol shifted keyboard has an ALT key that has a caps lock style indicator. To
// enable the indicator, we need to call setShiftLocked(true).
keyboard.setShiftLocked(true);
} else {
keyboard = getKeyboard(mSymbolsId);
// Symbol keyboard has an ALT key that has a caps lock style indicator. To disable the
// indicator, we need to call setShiftLocked(false).
keyboard.setShiftLocked(false);
}
setKeyboard(keyboard);
}
public boolean isInMomentarySwitchState() {
return mSwitchState == SWITCH_STATE_MOMENTARY_ALPHA_AND_SYMBOL
|| mSwitchState == SWITCH_STATE_MOMENTARY_SYMBOL_AND_MORE;
}
public boolean isVibrateAndSoundFeedbackRequired() {
return mKeyboardView == null || !mKeyboardView.isInSlidingKeyInput();
}
private int getPointerCount() {
return mKeyboardView == null ? 0 : mKeyboardView.getPointerCount();
}
private void toggleKeyboardMode() {
loadKeyboardInternal(mAttribute, mVoiceKeyEnabled, mVoiceButtonOnPrimary, !mIsSymbols);
if (mIsSymbols) {
mSwitchState = SWITCH_STATE_SYMBOL_BEGIN;
} else {
mSwitchState = SWITCH_STATE_ALPHA;
}
}
public boolean hasDistinctMultitouch() {
return mKeyboardView != null && mKeyboardView.hasDistinctMultitouch();
}
private static boolean isSpaceCharacter(int c) {
return c == Keyboard.CODE_SPACE || c == Keyboard.CODE_ENTER;
}
private static boolean isQuoteCharacter(int c) {
// Apostrophe, quotation mark.
if (c == Keyboard.CODE_SINGLE_QUOTE || c == Keyboard.CODE_DOUBLE_QUOTE)
return true;
// \u2018: Left single quotation mark
// \u2019: Right single quotation mark
// \u201a: Single low-9 quotation mark
// \u201b: Single high-reversed-9 quotation mark
// \u201c: Left double quotation mark
// \u201d: Right double quotation mark
// \u201e: Double low-9 quotation mark
// \u201f: Double high-reversed-9 quotation mark
if (c >= '\u2018' && c <= '\u201f')
return true;
// \u00ab: Left-pointing double angle quotation mark
// \u00bb: Right-pointing double angle quotation mark
if (c == '\u00ab' || c == '\u00bb')
return true;
return false;
}
/**
* Updates state machine to figure out when to automatically snap back to the previous mode.
*/
public void onKey(int code) {
if (DEBUG_STATE)
Log.d(TAG, "onKey: code=" + code + " switchState=" + mSwitchState
+ " pointers=" + getPointerCount());
switch (mSwitchState) {
case SWITCH_STATE_MOMENTARY_ALPHA_AND_SYMBOL:
// Only distinct multi touch devices can be in this state.
// On non-distinct multi touch devices, mode change key is handled by
// {@link LatinIME#onCodeInput}, not by {@link LatinIME#onPress} and
// {@link LatinIME#onRelease}. So, on such devices, {@link #mSwitchState} starts
// from {@link #SWITCH_STATE_SYMBOL_BEGIN}, or {@link #SWITCH_STATE_ALPHA}, not from
// {@link #SWITCH_STATE_MOMENTARY}.
if (code == Keyboard.CODE_SWITCH_ALPHA_SYMBOL) {
// Detected only the mode change key has been pressed, and then released.
if (mIsSymbols) {
mSwitchState = SWITCH_STATE_SYMBOL_BEGIN;
} else {
mSwitchState = SWITCH_STATE_ALPHA;
}
} else if (getPointerCount() == 1) {
// Snap back to the previous keyboard mode if the user pressed the mode change key
// and slid to other key, then released the finger.
// If the user cancels the sliding input, snapping back to the previous keyboard
// mode is handled by {@link #onCancelInput}.
changeKeyboardMode();
} else {
// Chording input is being started. The keyboard mode will be snapped back to the
// previous mode in {@link onReleaseSymbol} when the mode change key is released.
mSwitchState = SWITCH_STATE_CHORDING_ALPHA;
}
break;
case SWITCH_STATE_MOMENTARY_SYMBOL_AND_MORE:
if (code == Keyboard.CODE_SHIFT) {
// Detected only the shift key has been pressed on symbol layout, and then released.
mSwitchState = SWITCH_STATE_SYMBOL_BEGIN;
} else if (getPointerCount() == 1) {
// Snap back to the previous keyboard mode if the user pressed the shift key on
// symbol mode and slid to other key, then released the finger.
toggleShift();
mSwitchState = SWITCH_STATE_SYMBOL;
} else {
// Chording input is being started. The keyboard mode will be snapped back to the
// previous mode in {@link onReleaseShift} when the shift key is released.
mSwitchState = SWITCH_STATE_CHORDING_SYMBOL;
}
break;
case SWITCH_STATE_SYMBOL_BEGIN:
if (!isSpaceCharacter(code) && code >= 0) {
mSwitchState = SWITCH_STATE_SYMBOL;
}
// Snap back to alpha keyboard mode immediately if user types a quote character.
if (isQuoteCharacter(code)) {
changeKeyboardMode();
}
break;
case SWITCH_STATE_SYMBOL:
case SWITCH_STATE_CHORDING_SYMBOL:
// Snap back to alpha keyboard mode if user types one or more non-space/enter
// characters followed by a space/enter or a quote character.
if (isSpaceCharacter(code) || isQuoteCharacter(code)) {
changeKeyboardMode();
}
break;
}
}
public LatinKeyboardView getKeyboardView() {
return mKeyboardView;
}
public View onCreateInputView() {
return createInputView(mThemeIndex, true);
}
private View createInputView(final int newThemeIndex, final boolean forceRecreate) {
if (mCurrentInputView != null && mThemeIndex == newThemeIndex && !forceRecreate)
return mCurrentInputView;
if (mKeyboardView != null) {
mKeyboardView.closing();
}
final int oldThemeIndex = mThemeIndex;
Utils.GCUtils.getInstance().reset();
boolean tryGC = true;
for (int i = 0; i < Utils.GCUtils.GC_TRY_LOOP_MAX && tryGC; ++i) {
try {
setContextThemeWrapper(mInputMethodService, newThemeIndex);
mCurrentInputView = LayoutInflater.from(mThemeContext).inflate(
R.layout.input_view, null);
tryGC = false;
} catch (OutOfMemoryError e) {
Log.w(TAG, "load keyboard failed: " + e);
tryGC = Utils.GCUtils.getInstance().tryGCOrWait(
oldThemeIndex + "," + newThemeIndex, e);
} catch (InflateException e) {
Log.w(TAG, "load keyboard failed: " + e);
tryGC = Utils.GCUtils.getInstance().tryGCOrWait(
oldThemeIndex + "," + newThemeIndex, e);
}
}
mKeyboardView = (LatinKeyboardView) mCurrentInputView.findViewById(R.id.keyboard_view);
mKeyboardView.setKeyboardActionListener(mInputMethodService);
// This always needs to be set since the accessibility state can
// potentially change without the input view being re-created.
AccessibleKeyboardViewProxy.setView(mKeyboardView);
return mCurrentInputView;
}
private void postSetInputView(final View newInputView) {
mInputMethodService.mHandler.post(new Runnable() {
@Override
public void run() {
if (newInputView != null) {
mInputMethodService.setInputView(newInputView);
}
mInputMethodService.updateInputViewShown();
}
});
}
@Override
public void onSharedPreferenceChanged(SharedPreferences sharedPreferences, String key) {
if (PREF_KEYBOARD_LAYOUT.equals(key)) {
final int layoutId = getKeyboardThemeIndex(mInputMethodService, sharedPreferences);
postSetInputView(createInputView(layoutId, false));
} else if (Settings.PREF_SETTINGS_KEY.equals(key)) {
mSettingsKeyEnabledInSettings = getSettingsKeyMode(sharedPreferences,
mInputMethodService);
postSetInputView(createInputView(mThemeIndex, true));
}
}
public void onAutoCorrectionStateChanged(boolean isAutoCorrection) {
if (mIsAutoCorrectionActive != isAutoCorrection) {
mIsAutoCorrectionActive = isAutoCorrection;
final LatinKeyboard keyboard = getLatinKeyboard();
if (keyboard != null && keyboard.needsAutoCorrectionSpacebarLed()) {
final Key invalidatedKey = keyboard.onAutoCorrectionStateChanged(isAutoCorrection);
final LatinKeyboardView keyboardView = getKeyboardView();
if (keyboardView != null)
keyboardView.invalidateKey(invalidatedKey);
}
}
}
private static boolean getSettingsKeyMode(SharedPreferences prefs, Context context) {
final Resources res = context.getResources();
final boolean showSettingsKeyOption = res.getBoolean(
R.bool.config_enable_show_settings_key_option);
if (showSettingsKeyOption) {
final String settingsKeyMode = prefs.getString(Settings.PREF_SETTINGS_KEY,
res.getString(DEFAULT_SETTINGS_KEY_MODE));
// We show the settings key when 1) SETTINGS_KEY_MODE_ALWAYS_SHOW or
// 2) SETTINGS_KEY_MODE_AUTO and there are two or more enabled IMEs on the system
if (settingsKeyMode.equals(res.getString(SETTINGS_KEY_MODE_ALWAYS_SHOW))
|| (settingsKeyMode.equals(res.getString(SETTINGS_KEY_MODE_AUTO))
&& Utils.hasMultipleEnabledIMEsOrSubtypes(
(InputMethodManagerCompatWrapper.getInstance(context))))) {
return true;
}
return false;
}
// If the show settings key option is disabled, we always try showing the settings key.
return true;
}
private static int getF2KeyMode(SharedPreferences prefs, Context context,
EditorInfo attribute) {
final boolean clobberSettingsKey = Utils.inPrivateImeOptions(
context.getPackageName(), LatinIME.IME_OPTION_NO_SETTINGS_KEY, attribute);
final Resources res = context.getResources();
final String settingsKeyMode = prefs.getString(Settings.PREF_SETTINGS_KEY,
res.getString(DEFAULT_SETTINGS_KEY_MODE));
if (settingsKeyMode.equals(res.getString(SETTINGS_KEY_MODE_AUTO))) {
return clobberSettingsKey ? KeyboardId.F2KEY_MODE_SHORTCUT_IME
: KeyboardId.F2KEY_MODE_SHORTCUT_IME_OR_SETTINGS;
} else if (settingsKeyMode.equals(res.getString(SETTINGS_KEY_MODE_ALWAYS_SHOW))) {
return clobberSettingsKey ? KeyboardId.F2KEY_MODE_NONE : KeyboardId.F2KEY_MODE_SETTINGS;
} else { // SETTINGS_KEY_MODE_ALWAYS_HIDE
return KeyboardId.F2KEY_MODE_SHORTCUT_IME;
}
}
}