/* * Copyright (C) 2013 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.internal.inputmethod; import android.annotation.NonNull; import android.annotation.Nullable; import android.annotation.UserIdInt; import android.app.AppOpsManager; import android.content.ContentResolver; import android.content.Context; import android.content.pm.ApplicationInfo; import android.content.pm.IPackageManager; import android.content.pm.PackageManager; import android.content.res.Resources; import android.os.LocaleList; import android.os.RemoteException; import android.provider.Settings; import android.text.TextUtils; import android.text.TextUtils.SimpleStringSplitter; import android.util.ArrayMap; import android.util.ArraySet; import android.util.Pair; import android.util.Printer; import android.util.Slog; import android.view.inputmethod.InputMethodInfo; import android.view.inputmethod.InputMethodSubtype; import android.view.textservice.SpellCheckerInfo; import android.view.textservice.TextServicesManager; import com.android.internal.annotations.GuardedBy; import com.android.internal.annotations.VisibleForTesting; import java.util.ArrayList; import java.util.Arrays; import java.util.HashMap; import java.util.LinkedHashSet; import java.util.List; import java.util.Locale; /** * InputMethodManagerUtils contains some static methods that provides IME informations. * This methods are supposed to be used in both the framework and the Settings application. */ public class InputMethodUtils { public static final boolean DEBUG = false; public static final int NOT_A_SUBTYPE_ID = -1; public static final String SUBTYPE_MODE_ANY = null; public static final String SUBTYPE_MODE_KEYBOARD = "keyboard"; public static final String SUBTYPE_MODE_VOICE = "voice"; private static final String TAG = "InputMethodUtils"; private static final Locale ENGLISH_LOCALE = new Locale("en"); private static final String NOT_A_SUBTYPE_ID_STR = String.valueOf(NOT_A_SUBTYPE_ID); private static final String TAG_ENABLED_WHEN_DEFAULT_IS_NOT_ASCII_CAPABLE = "EnabledWhenDefaultIsNotAsciiCapable"; private static final String TAG_ASCII_CAPABLE = "AsciiCapable"; // The string for enabled input method is saved as follows: // example: ("ime0;subtype0;subtype1;subtype2:ime1:ime2;subtype0") private static final char INPUT_METHOD_SEPARATOR = ':'; private static final char INPUT_METHOD_SUBTYPE_SEPARATOR = ';'; /** * Used in {@link #getFallbackLocaleForDefaultIme(ArrayList, Context)} to find the fallback IMEs * that are mainly used until the system becomes ready. Note that {@link Locale} in this array * is checked with {@link Locale#equals(Object)}, which means that {@code Locale.ENGLISH} * doesn't automatically match {@code Locale("en", "IN")}. */ private static final Locale[] SEARCH_ORDER_OF_FALLBACK_LOCALES = { Locale.ENGLISH, // "en" Locale.US, // "en_US" Locale.UK, // "en_GB" }; // A temporary workaround for the performance concerns in // #getImplicitlyApplicableSubtypesLocked(Resources, InputMethodInfo). // TODO: Optimize all the critical paths including this one. private static final Object sCacheLock = new Object(); @GuardedBy("sCacheLock") private static LocaleList sCachedSystemLocales; @GuardedBy("sCacheLock") private static InputMethodInfo sCachedInputMethodInfo; @GuardedBy("sCacheLock") private static ArrayList sCachedResult; private InputMethodUtils() { // This utility class is not publicly instantiable. } // ---------------------------------------------------------------------- // Utilities for debug public static String getApiCallStack() { String apiCallStack = ""; try { throw new RuntimeException(); } catch (RuntimeException e) { final StackTraceElement[] frames = e.getStackTrace(); for (int j = 1; j < frames.length; ++j) { final String tempCallStack = frames[j].toString(); if (TextUtils.isEmpty(apiCallStack)) { // Overwrite apiCallStack if it's empty apiCallStack = tempCallStack; } else if (tempCallStack.indexOf("Transact(") < 0) { // Overwrite apiCallStack if it's not a binder call apiCallStack = tempCallStack; } else { break; } } } return apiCallStack; } // ---------------------------------------------------------------------- public static boolean isSystemIme(InputMethodInfo inputMethod) { return (inputMethod.getServiceInfo().applicationInfo.flags & ApplicationInfo.FLAG_SYSTEM) != 0; } public static boolean isSystemImeThatHasSubtypeOf(final InputMethodInfo imi, final Context context, final boolean checkDefaultAttribute, @Nullable final Locale requiredLocale, final boolean checkCountry, final String requiredSubtypeMode) { if (!isSystemIme(imi)) { return false; } if (checkDefaultAttribute && !imi.isDefault(context)) { return false; } if (!containsSubtypeOf(imi, requiredLocale, checkCountry, requiredSubtypeMode)) { return false; } return true; } @Nullable public static Locale getFallbackLocaleForDefaultIme(final ArrayList imis, final Context context) { // At first, find the fallback locale from the IMEs that are declared as "default" in the // current locale. Note that IME developers can declare an IME as "default" only for // some particular locales but "not default" for other locales. for (final Locale fallbackLocale : SEARCH_ORDER_OF_FALLBACK_LOCALES) { for (int i = 0; i < imis.size(); ++i) { if (isSystemImeThatHasSubtypeOf(imis.get(i), context, true /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD)) { return fallbackLocale; } } } // If no fallback locale is found in the above condition, find fallback locales regardless // of the "default" attribute as a last resort. for (final Locale fallbackLocale : SEARCH_ORDER_OF_FALLBACK_LOCALES) { for (int i = 0; i < imis.size(); ++i) { if (isSystemImeThatHasSubtypeOf(imis.get(i), context, false /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD)) { return fallbackLocale; } } } Slog.w(TAG, "Found no fallback locale. imis=" + Arrays.toString(imis.toArray())); return null; } private static boolean isSystemAuxilialyImeThatHasAutomaticSubtype(final InputMethodInfo imi, final Context context, final boolean checkDefaultAttribute) { if (!isSystemIme(imi)) { return false; } if (checkDefaultAttribute && !imi.isDefault(context)) { return false; } if (!imi.isAuxiliaryIme()) { return false; } final int subtypeCount = imi.getSubtypeCount(); for (int i = 0; i < subtypeCount; ++i) { final InputMethodSubtype s = imi.getSubtypeAt(i); if (s.overridesImplicitlyEnabledSubtype()) { return true; } } return false; } public static Locale getSystemLocaleFromContext(final Context context) { try { return context.getResources().getConfiguration().locale; } catch (Resources.NotFoundException ex) { return null; } } private static final class InputMethodListBuilder { // Note: We use LinkedHashSet instead of android.util.ArraySet because the enumeration // order can have non-trivial effect in the call sites. @NonNull private final LinkedHashSet mInputMethodSet = new LinkedHashSet<>(); public InputMethodListBuilder fillImes(final ArrayList imis, final Context context, final boolean checkDefaultAttribute, @Nullable final Locale locale, final boolean checkCountry, final String requiredSubtypeMode) { for (int i = 0; i < imis.size(); ++i) { final InputMethodInfo imi = imis.get(i); if (isSystemImeThatHasSubtypeOf(imi, context, checkDefaultAttribute, locale, checkCountry, requiredSubtypeMode)) { mInputMethodSet.add(imi); } } return this; } // TODO: The behavior of InputMethodSubtype#overridesImplicitlyEnabledSubtype() should be // documented more clearly. public InputMethodListBuilder fillAuxiliaryImes(final ArrayList imis, final Context context) { // If one or more auxiliary input methods are available, OK to stop populating the list. for (final InputMethodInfo imi : mInputMethodSet) { if (imi.isAuxiliaryIme()) { return this; } } boolean added = false; for (int i = 0; i < imis.size(); ++i) { final InputMethodInfo imi = imis.get(i); if (isSystemAuxilialyImeThatHasAutomaticSubtype(imi, context, true /* checkDefaultAttribute */)) { mInputMethodSet.add(imi); added = true; } } if (added) { return this; } for (int i = 0; i < imis.size(); ++i) { final InputMethodInfo imi = imis.get(i); if (isSystemAuxilialyImeThatHasAutomaticSubtype(imi, context, false /* checkDefaultAttribute */)) { mInputMethodSet.add(imi); } } return this; } public boolean isEmpty() { return mInputMethodSet.isEmpty(); } @NonNull public ArrayList build() { return new ArrayList<>(mInputMethodSet); } } private static InputMethodListBuilder getMinimumKeyboardSetWithoutSystemLocale( final ArrayList imis, final Context context, @Nullable final Locale fallbackLocale) { // Before the system becomes ready, we pick up at least one keyboard in the following order. // The first user (device owner) falls into this category. // 1. checkDefaultAttribute: true, locale: fallbackLocale, checkCountry: true // 2. checkDefaultAttribute: false, locale: fallbackLocale, checkCountry: true // 3. checkDefaultAttribute: true, locale: fallbackLocale, checkCountry: false // 4. checkDefaultAttribute: false, locale: fallbackLocale, checkCountry: false // TODO: We should check isAsciiCapable instead of relying on fallbackLocale. final InputMethodListBuilder builder = new InputMethodListBuilder(); builder.fillImes(imis, context, true /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, false /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, true /* checkDefaultAttribute */, fallbackLocale, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, false /* checkDefaultAttribute */, fallbackLocale, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } Slog.w(TAG, "No software keyboard is found. imis=" + Arrays.toString(imis.toArray()) + " fallbackLocale=" + fallbackLocale); return builder; } private static InputMethodListBuilder getMinimumKeyboardSetWithSystemLocale( final ArrayList imis, final Context context, @Nullable final Locale systemLocale, @Nullable final Locale fallbackLocale) { // Once the system becomes ready, we pick up at least one keyboard in the following order. // Secondary users fall into this category in general. // 1. checkDefaultAttribute: true, locale: systemLocale, checkCountry: true // 2. checkDefaultAttribute: true, locale: systemLocale, checkCountry: false // 3. checkDefaultAttribute: true, locale: fallbackLocale, checkCountry: true // 4. checkDefaultAttribute: true, locale: fallbackLocale, checkCountry: false // 5. checkDefaultAttribute: false, locale: fallbackLocale, checkCountry: true // 6. checkDefaultAttribute: false, locale: fallbackLocale, checkCountry: false // TODO: We should check isAsciiCapable instead of relying on fallbackLocale. final InputMethodListBuilder builder = new InputMethodListBuilder(); builder.fillImes(imis, context, true /* checkDefaultAttribute */, systemLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, true /* checkDefaultAttribute */, systemLocale, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, true /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, true /* checkDefaultAttribute */, fallbackLocale, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, false /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } builder.fillImes(imis, context, false /* checkDefaultAttribute */, fallbackLocale, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD); if (!builder.isEmpty()) { return builder; } Slog.w(TAG, "No software keyboard is found. imis=" + Arrays.toString(imis.toArray()) + " systemLocale=" + systemLocale + " fallbackLocale=" + fallbackLocale); return builder; } public static ArrayList getDefaultEnabledImes(final Context context, final boolean isSystemReady, final ArrayList imis) { final Locale fallbackLocale = getFallbackLocaleForDefaultIme(imis, context); if (!isSystemReady) { // When the system is not ready, the system locale is not stable and reliable. Hence // we will pick up IMEs that support software keyboard based on the fallback locale. // Also pick up suitable IMEs regardless of the software keyboard support. // (e.g. Voice IMEs) return getMinimumKeyboardSetWithoutSystemLocale(imis, context, fallbackLocale) .fillImes(imis, context, true /* checkDefaultAttribute */, fallbackLocale, true /* checkCountry */, SUBTYPE_MODE_ANY) .build(); } // When the system is ready, we will primarily rely on the system locale, but also keep // relying on the fallback locale as a last resort. // Also pick up suitable IMEs regardless of the software keyboard support (e.g. Voice IMEs), // then pick up suitable auxiliary IMEs when necessary (e.g. Voice IMEs with "automatic" // subtype) final Locale systemLocale = getSystemLocaleFromContext(context); return getMinimumKeyboardSetWithSystemLocale(imis, context, systemLocale, fallbackLocale) .fillImes(imis, context, true /* checkDefaultAttribute */, systemLocale, true /* checkCountry */, SUBTYPE_MODE_ANY) .fillAuxiliaryImes(imis, context) .build(); } public static Locale constructLocaleFromString(String localeStr) { if (TextUtils.isEmpty(localeStr)) { return null; } // TODO: Use {@link Locale#toLanguageTag()} and {@link Locale#forLanguageTag(languageTag)}. String[] localeParams = localeStr.split("_", 3); if (localeParams.length >= 1 && "tl".equals(localeParams[0])) { // Convert a locale whose language is "tl" to one whose language is "fil". // For example, "tl_PH" will get converted to "fil_PH". // Versions of Android earlier than Lollipop did not support three letter language // codes, and used "tl" (Tagalog) as the language string for "fil" (Filipino). // On Lollipop and above, the current three letter version must be used. localeParams[0] = "fil"; } // The length of localeStr is guaranteed to always return a 1 <= value <= 3 // because localeStr is not empty. if (localeParams.length == 1) { return new Locale(localeParams[0]); } else if (localeParams.length == 2) { return new Locale(localeParams[0], localeParams[1]); } else if (localeParams.length == 3) { return new Locale(localeParams[0], localeParams[1], localeParams[2]); } return null; } public static boolean containsSubtypeOf(final InputMethodInfo imi, @Nullable final Locale locale, final boolean checkCountry, final String mode) { if (locale == null) { return false; } final int N = imi.getSubtypeCount(); for (int i = 0; i < N; ++i) { final InputMethodSubtype subtype = imi.getSubtypeAt(i); if (checkCountry) { final Locale subtypeLocale = subtype.getLocaleObject(); if (subtypeLocale == null || !TextUtils.equals(subtypeLocale.getLanguage(), locale.getLanguage()) || !TextUtils.equals(subtypeLocale.getCountry(), locale.getCountry())) { continue; } } else { final Locale subtypeLocale = new Locale(getLanguageFromLocaleString( subtype.getLocale())); if (!TextUtils.equals(subtypeLocale.getLanguage(), locale.getLanguage())) { continue; } } if (mode == SUBTYPE_MODE_ANY || TextUtils.isEmpty(mode) || mode.equalsIgnoreCase(subtype.getMode())) { return true; } } return false; } public static ArrayList getSubtypes(InputMethodInfo imi) { ArrayList subtypes = new ArrayList<>(); final int subtypeCount = imi.getSubtypeCount(); for (int i = 0; i < subtypeCount; ++i) { subtypes.add(imi.getSubtypeAt(i)); } return subtypes; } public static ArrayList getOverridingImplicitlyEnabledSubtypes( InputMethodInfo imi, String mode) { ArrayList subtypes = new ArrayList<>(); final int subtypeCount = imi.getSubtypeCount(); for (int i = 0; i < subtypeCount; ++i) { final InputMethodSubtype subtype = imi.getSubtypeAt(i); if (subtype.overridesImplicitlyEnabledSubtype() && subtype.getMode().equals(mode)) { subtypes.add(subtype); } } return subtypes; } public static InputMethodInfo getMostApplicableDefaultIME(List enabledImes) { if (enabledImes == null || enabledImes.isEmpty()) { return null; } // We'd prefer to fall back on a system IME, since that is safer. int i = enabledImes.size(); int firstFoundSystemIme = -1; while (i > 0) { i--; final InputMethodInfo imi = enabledImes.get(i); if (imi.isAuxiliaryIme()) { continue; } if (InputMethodUtils.isSystemIme(imi) && containsSubtypeOf(imi, ENGLISH_LOCALE, false /* checkCountry */, SUBTYPE_MODE_KEYBOARD)) { return imi; } if (firstFoundSystemIme < 0 && InputMethodUtils.isSystemIme(imi)) { firstFoundSystemIme = i; } } return enabledImes.get(Math.max(firstFoundSystemIme, 0)); } public static boolean isValidSubtypeId(InputMethodInfo imi, int subtypeHashCode) { return getSubtypeIdFromHashCode(imi, subtypeHashCode) != NOT_A_SUBTYPE_ID; } public static int getSubtypeIdFromHashCode(InputMethodInfo imi, int subtypeHashCode) { if (imi != null) { final int subtypeCount = imi.getSubtypeCount(); for (int i = 0; i < subtypeCount; ++i) { InputMethodSubtype ims = imi.getSubtypeAt(i); if (subtypeHashCode == ims.hashCode()) { return i; } } } return NOT_A_SUBTYPE_ID; } private static final LocaleUtils.LocaleExtractor sSubtypeToLocale = new LocaleUtils.LocaleExtractor() { @Override public Locale get(InputMethodSubtype source) { return source != null ? source.getLocaleObject() : null; } }; @VisibleForTesting public static ArrayList getImplicitlyApplicableSubtypesLocked( Resources res, InputMethodInfo imi) { final LocaleList systemLocales = res.getConfiguration().getLocales(); synchronized (sCacheLock) { // We intentionally do not use InputMethodInfo#equals(InputMethodInfo) here because // it does not check if subtypes are also identical. if (systemLocales.equals(sCachedSystemLocales) && sCachedInputMethodInfo == imi) { return new ArrayList<>(sCachedResult); } } // Note: Only resource info in "res" is used in getImplicitlyApplicableSubtypesLockedImpl(). // TODO: Refactor getImplicitlyApplicableSubtypesLockedImpl() so that it can receive // LocaleList rather than Resource. final ArrayList result = getImplicitlyApplicableSubtypesLockedImpl(res, imi); synchronized (sCacheLock) { // Both LocaleList and InputMethodInfo are immutable. No need to copy them here. sCachedSystemLocales = systemLocales; sCachedInputMethodInfo = imi; sCachedResult = new ArrayList<>(result); } return result; } private static ArrayList getImplicitlyApplicableSubtypesLockedImpl( Resources res, InputMethodInfo imi) { final List subtypes = InputMethodUtils.getSubtypes(imi); final LocaleList systemLocales = res.getConfiguration().getLocales(); final String systemLocale = systemLocales.get(0).toString(); if (TextUtils.isEmpty(systemLocale)) return new ArrayList<>(); final int numSubtypes = subtypes.size(); // Handle overridesImplicitlyEnabledSubtype mechanism. final HashMap applicableModeAndSubtypesMap = new HashMap<>(); for (int i = 0; i < numSubtypes; ++i) { // scan overriding implicitly enabled subtypes. final InputMethodSubtype subtype = subtypes.get(i); if (subtype.overridesImplicitlyEnabledSubtype()) { final String mode = subtype.getMode(); if (!applicableModeAndSubtypesMap.containsKey(mode)) { applicableModeAndSubtypesMap.put(mode, subtype); } } } if (applicableModeAndSubtypesMap.size() > 0) { return new ArrayList<>(applicableModeAndSubtypesMap.values()); } final HashMap> nonKeyboardSubtypesMap = new HashMap<>(); final ArrayList keyboardSubtypes = new ArrayList<>(); for (int i = 0; i < numSubtypes; ++i) { final InputMethodSubtype subtype = subtypes.get(i); final String mode = subtype.getMode(); if (SUBTYPE_MODE_KEYBOARD.equals(mode)) { keyboardSubtypes.add(subtype); } else { if (!nonKeyboardSubtypesMap.containsKey(mode)) { nonKeyboardSubtypesMap.put(mode, new ArrayList<>()); } nonKeyboardSubtypesMap.get(mode).add(subtype); } } final ArrayList applicableSubtypes = new ArrayList<>(); LocaleUtils.filterByLanguage(keyboardSubtypes, sSubtypeToLocale, systemLocales, applicableSubtypes); if (!applicableSubtypes.isEmpty()) { boolean hasAsciiCapableKeyboard = false; final int numApplicationSubtypes = applicableSubtypes.size(); for (int i = 0; i < numApplicationSubtypes; ++i) { final InputMethodSubtype subtype = applicableSubtypes.get(i); if (subtype.containsExtraValueKey(TAG_ASCII_CAPABLE)) { hasAsciiCapableKeyboard = true; break; } } if (!hasAsciiCapableKeyboard) { final int numKeyboardSubtypes = keyboardSubtypes.size(); for (int i = 0; i < numKeyboardSubtypes; ++i) { final InputMethodSubtype subtype = keyboardSubtypes.get(i); final String mode = subtype.getMode(); if (SUBTYPE_MODE_KEYBOARD.equals(mode) && subtype.containsExtraValueKey( TAG_ENABLED_WHEN_DEFAULT_IS_NOT_ASCII_CAPABLE)) { applicableSubtypes.add(subtype); } } } } if (applicableSubtypes.isEmpty()) { InputMethodSubtype lastResortKeyboardSubtype = findLastResortApplicableSubtypeLocked( res, subtypes, SUBTYPE_MODE_KEYBOARD, systemLocale, true); if (lastResortKeyboardSubtype != null) { applicableSubtypes.add(lastResortKeyboardSubtype); } } // For each non-keyboard mode, extract subtypes with system locales. for (final ArrayList subtypeList : nonKeyboardSubtypesMap.values()) { LocaleUtils.filterByLanguage(subtypeList, sSubtypeToLocale, systemLocales, applicableSubtypes); } return applicableSubtypes; } /** * Returns the language component of a given locale string. * TODO: Use {@link Locale#toLanguageTag()} and {@link Locale#forLanguageTag(String)} */ public static String getLanguageFromLocaleString(String locale) { final int idx = locale.indexOf('_'); if (idx < 0) { return locale; } else { return locale.substring(0, idx); } } /** * If there are no selected subtypes, tries finding the most applicable one according to the * given locale. * @param subtypes this function will search the most applicable subtype in subtypes * @param mode subtypes will be filtered by mode * @param locale subtypes will be filtered by locale * @param canIgnoreLocaleAsLastResort if this function can't find the most applicable subtype, * it will return the first subtype matched with mode * @return the most applicable subtypeId */ public static InputMethodSubtype findLastResortApplicableSubtypeLocked( Resources res, List subtypes, String mode, String locale, boolean canIgnoreLocaleAsLastResort) { if (subtypes == null || subtypes.size() == 0) { return null; } if (TextUtils.isEmpty(locale)) { locale = res.getConfiguration().locale.toString(); } final String language = getLanguageFromLocaleString(locale); boolean partialMatchFound = false; InputMethodSubtype applicableSubtype = null; InputMethodSubtype firstMatchedModeSubtype = null; final int N = subtypes.size(); for (int i = 0; i < N; ++i) { InputMethodSubtype subtype = subtypes.get(i); final String subtypeLocale = subtype.getLocale(); final String subtypeLanguage = getLanguageFromLocaleString(subtypeLocale); // An applicable subtype should match "mode". If mode is null, mode will be ignored, // and all subtypes with all modes can be candidates. if (mode == null || subtypes.get(i).getMode().equalsIgnoreCase(mode)) { if (firstMatchedModeSubtype == null) { firstMatchedModeSubtype = subtype; } if (locale.equals(subtypeLocale)) { // Exact match (e.g. system locale is "en_US" and subtype locale is "en_US") applicableSubtype = subtype; break; } else if (!partialMatchFound && language.equals(subtypeLanguage)) { // Partial match (e.g. system locale is "en_US" and subtype locale is "en") applicableSubtype = subtype; partialMatchFound = true; } } } if (applicableSubtype == null && canIgnoreLocaleAsLastResort) { return firstMatchedModeSubtype; } // The first subtype applicable to the system locale will be defined as the most applicable // subtype. if (DEBUG) { if (applicableSubtype != null) { Slog.d(TAG, "Applicable InputMethodSubtype was found: " + applicableSubtype.getMode() + "," + applicableSubtype.getLocale()); } } return applicableSubtype; } public static boolean canAddToLastInputMethod(InputMethodSubtype subtype) { if (subtype == null) return true; return !subtype.isAuxiliary(); } public static void setNonSelectedSystemImesDisabledUntilUsed( IPackageManager packageManager, List enabledImis, int userId, String callingPackage) { if (DEBUG) { Slog.d(TAG, "setNonSelectedSystemImesDisabledUntilUsed"); } final String[] systemImesDisabledUntilUsed = Resources.getSystem().getStringArray( com.android.internal.R.array.config_disabledUntilUsedPreinstalledImes); if (systemImesDisabledUntilUsed == null || systemImesDisabledUntilUsed.length == 0) { return; } // Only the current spell checker should be treated as an enabled one. final SpellCheckerInfo currentSpellChecker = TextServicesManager.getInstance().getCurrentSpellChecker(); for (final String packageName : systemImesDisabledUntilUsed) { if (DEBUG) { Slog.d(TAG, "check " + packageName); } boolean enabledIme = false; for (int j = 0; j < enabledImis.size(); ++j) { final InputMethodInfo imi = enabledImis.get(j); if (packageName.equals(imi.getPackageName())) { enabledIme = true; break; } } if (enabledIme) { // enabled ime. skip continue; } if (currentSpellChecker != null && packageName.equals(currentSpellChecker.getPackageName())) { // enabled spell checker. skip if (DEBUG) { Slog.d(TAG, packageName + " is the current spell checker. skip"); } continue; } ApplicationInfo ai = null; try { ai = packageManager.getApplicationInfo(packageName, PackageManager.GET_DISABLED_UNTIL_USED_COMPONENTS, userId); } catch (RemoteException e) { Slog.w(TAG, "getApplicationInfo failed. packageName=" + packageName + " userId=" + userId, e); continue; } if (ai == null) { // No app found for packageName continue; } final boolean isSystemPackage = (ai.flags & ApplicationInfo.FLAG_SYSTEM) != 0; if (!isSystemPackage) { continue; } setDisabledUntilUsed(packageManager, packageName, userId, callingPackage); } } private static void setDisabledUntilUsed(IPackageManager packageManager, String packageName, int userId, String callingPackage) { final int state; try { state = packageManager.getApplicationEnabledSetting(packageName, userId); } catch (RemoteException e) { Slog.w(TAG, "getApplicationEnabledSetting failed. packageName=" + packageName + " userId=" + userId, e); return; } if (state == PackageManager.COMPONENT_ENABLED_STATE_DEFAULT || state == PackageManager.COMPONENT_ENABLED_STATE_ENABLED) { if (DEBUG) { Slog.d(TAG, "Update state(" + packageName + "): DISABLED_UNTIL_USED"); } try { packageManager.setApplicationEnabledSetting(packageName, PackageManager.COMPONENT_ENABLED_STATE_DISABLED_UNTIL_USED, 0 /* newState */, userId, callingPackage); } catch (RemoteException e) { Slog.w(TAG, "setApplicationEnabledSetting failed. packageName=" + packageName + " userId=" + userId + " callingPackage=" + callingPackage, e); return; } } else { if (DEBUG) { Slog.d(TAG, packageName + " is already DISABLED_UNTIL_USED"); } } } public static CharSequence getImeAndSubtypeDisplayName(Context context, InputMethodInfo imi, InputMethodSubtype subtype) { final CharSequence imiLabel = imi.loadLabel(context.getPackageManager()); return subtype != null ? TextUtils.concat(subtype.getDisplayName(context, imi.getPackageName(), imi.getServiceInfo().applicationInfo), (TextUtils.isEmpty(imiLabel) ? "" : " - " + imiLabel)) : imiLabel; } /** * Returns true if a package name belongs to a UID. * *

This is a simple wrapper of {@link AppOpsManager#checkPackage(int, String)}.

* @param appOpsManager the {@link AppOpsManager} object to be used for the validation. * @param uid the UID to be validated. * @param packageName the package name. * @return {@code true} if the package name belongs to the UID. */ public static boolean checkIfPackageBelongsToUid(final AppOpsManager appOpsManager, final int uid, final String packageName) { try { appOpsManager.checkPackage(uid, packageName); return true; } catch (SecurityException e) { return false; } } /** * Parses the setting stored input methods and subtypes string value. * * @param inputMethodsAndSubtypesString The input method subtypes value stored in settings. * @return Map from input method ID to set of input method subtypes IDs. */ @VisibleForTesting public static ArrayMap> parseInputMethodsAndSubtypesString( @Nullable final String inputMethodsAndSubtypesString) { final ArrayMap> imeMap = new ArrayMap<>(); if (TextUtils.isEmpty(inputMethodsAndSubtypesString)) { return imeMap; } final SimpleStringSplitter typeSplitter = new SimpleStringSplitter(INPUT_METHOD_SEPARATOR); final SimpleStringSplitter subtypeSplitter = new SimpleStringSplitter(INPUT_METHOD_SUBTYPE_SEPARATOR); List>> allImeSettings = InputMethodSettings.buildInputMethodsAndSubtypeList(inputMethodsAndSubtypesString, typeSplitter, subtypeSplitter); for (Pair> ime : allImeSettings) { ArraySet subtypes = new ArraySet<>(); if (ime.second != null) { subtypes.addAll(ime.second); } imeMap.put(ime.first, subtypes); } return imeMap; } @NonNull public static String buildInputMethodsAndSubtypesString( @NonNull final ArrayMap> map) { // we want to use the canonical InputMethodSettings implementation, // so we convert data structures first. List>> imeMap = new ArrayList<>(4); for (ArrayMap.Entry> entry : map.entrySet()) { final String imeName = entry.getKey(); final ArraySet subtypeSet = entry.getValue(); final ArrayList subtypes = new ArrayList<>(2); if (subtypeSet != null) { subtypes.addAll(subtypeSet); } imeMap.add(new Pair<>(imeName, subtypes)); } return InputMethodSettings.buildInputMethodsSettingString(imeMap); } /** * Utility class for putting and getting settings for InputMethod * TODO: Move all putters and getters of settings to this class. */ public static class InputMethodSettings { private final TextUtils.SimpleStringSplitter mInputMethodSplitter = new TextUtils.SimpleStringSplitter(INPUT_METHOD_SEPARATOR); private final TextUtils.SimpleStringSplitter mSubtypeSplitter = new TextUtils.SimpleStringSplitter(INPUT_METHOD_SUBTYPE_SEPARATOR); private final Resources mRes; private final ContentResolver mResolver; private final HashMap mMethodMap; private final ArrayList mMethodList; /** * On-memory data store to emulate when {@link #mCopyOnWrite} is {@code true}. */ private final HashMap mCopyOnWriteDataStore = new HashMap<>(); private boolean mCopyOnWrite = false; @NonNull private String mEnabledInputMethodsStrCache = ""; @UserIdInt private int mCurrentUserId; private int[] mCurrentProfileIds = new int[0]; private static void buildEnabledInputMethodsSettingString( StringBuilder builder, Pair> ime) { builder.append(ime.first); // Inputmethod and subtypes are saved in the settings as follows: // ime0;subtype0;subtype1:ime1;subtype0:ime2:ime3;subtype0;subtype1 for (String subtypeId: ime.second) { builder.append(INPUT_METHOD_SUBTYPE_SEPARATOR).append(subtypeId); } } public static String buildInputMethodsSettingString( List>> allImeSettingsMap) { final StringBuilder b = new StringBuilder(); boolean needsSeparator = false; for (Pair> ime : allImeSettingsMap) { if (needsSeparator) { b.append(INPUT_METHOD_SEPARATOR); } buildEnabledInputMethodsSettingString(b, ime); needsSeparator = true; } return b.toString(); } public static List>> buildInputMethodsAndSubtypeList( String enabledInputMethodsStr, TextUtils.SimpleStringSplitter inputMethodSplitter, TextUtils.SimpleStringSplitter subtypeSplitter) { ArrayList>> imsList = new ArrayList<>(); if (TextUtils.isEmpty(enabledInputMethodsStr)) { return imsList; } inputMethodSplitter.setString(enabledInputMethodsStr); while (inputMethodSplitter.hasNext()) { String nextImsStr = inputMethodSplitter.next(); subtypeSplitter.setString(nextImsStr); if (subtypeSplitter.hasNext()) { ArrayList subtypeHashes = new ArrayList<>(); // The first element is ime id. String imeId = subtypeSplitter.next(); while (subtypeSplitter.hasNext()) { subtypeHashes.add(subtypeSplitter.next()); } imsList.add(new Pair<>(imeId, subtypeHashes)); } } return imsList; } public InputMethodSettings( Resources res, ContentResolver resolver, HashMap methodMap, ArrayList methodList, @UserIdInt int userId, boolean copyOnWrite) { mRes = res; mResolver = resolver; mMethodMap = methodMap; mMethodList = methodList; switchCurrentUser(userId, copyOnWrite); } /** * Must be called when the current user is changed. * * @param userId The user ID. * @param copyOnWrite If {@code true}, for each settings key * (e.g. {@link Settings.Secure#ACTION_INPUT_METHOD_SUBTYPE_SETTINGS}) we use the actual * settings on the {@link Settings.Secure} until we do the first write operation. */ public void switchCurrentUser(@UserIdInt int userId, boolean copyOnWrite) { if (DEBUG) { Slog.d(TAG, "--- Switch the current user from " + mCurrentUserId + " to " + userId); } if (mCurrentUserId != userId || mCopyOnWrite != copyOnWrite) { mCopyOnWriteDataStore.clear(); mEnabledInputMethodsStrCache = ""; // TODO: mCurrentProfileIds should be cleared here. } mCurrentUserId = userId; mCopyOnWrite = copyOnWrite; // TODO: mCurrentProfileIds should be updated here. } private void putString(@NonNull final String key, @Nullable final String str) { if (mCopyOnWrite) { mCopyOnWriteDataStore.put(key, str); } else { Settings.Secure.putStringForUser(mResolver, key, str, mCurrentUserId); } } @Nullable private String getString(@NonNull final String key, @Nullable final String defaultValue) { final String result; if (mCopyOnWrite && mCopyOnWriteDataStore.containsKey(key)) { result = mCopyOnWriteDataStore.get(key); } else { result = Settings.Secure.getStringForUser(mResolver, key, mCurrentUserId); } return result != null ? result : defaultValue; } private void putInt(final String key, final int value) { if (mCopyOnWrite) { mCopyOnWriteDataStore.put(key, String.valueOf(value)); } else { Settings.Secure.putIntForUser(mResolver, key, value, mCurrentUserId); } } private int getInt(final String key, final int defaultValue) { if (mCopyOnWrite && mCopyOnWriteDataStore.containsKey(key)) { final String result = mCopyOnWriteDataStore.get(key); return result != null ? Integer.parseInt(result) : 0; } return Settings.Secure.getIntForUser(mResolver, key, defaultValue, mCurrentUserId); } private void putBoolean(final String key, final boolean value) { putInt(key, value ? 1 : 0); } private boolean getBoolean(final String key, final boolean defaultValue) { return getInt(key, defaultValue ? 1 : 0) == 1; } public void setCurrentProfileIds(int[] currentProfileIds) { synchronized (this) { mCurrentProfileIds = currentProfileIds; } } public boolean isCurrentProfile(int userId) { synchronized (this) { if (userId == mCurrentUserId) return true; for (int i = 0; i < mCurrentProfileIds.length; i++) { if (userId == mCurrentProfileIds[i]) return true; } return false; } } public ArrayList getEnabledInputMethodListLocked() { return createEnabledInputMethodListLocked( getEnabledInputMethodsAndSubtypeListLocked()); } public List getEnabledInputMethodSubtypeListLocked( Context context, InputMethodInfo imi, boolean allowsImplicitlySelectedSubtypes) { List enabledSubtypes = getEnabledInputMethodSubtypeListLocked(imi); if (allowsImplicitlySelectedSubtypes && enabledSubtypes.isEmpty()) { enabledSubtypes = InputMethodUtils.getImplicitlyApplicableSubtypesLocked( context.getResources(), imi); } return InputMethodSubtype.sort(context, 0, imi, enabledSubtypes); } public List getEnabledInputMethodSubtypeListLocked( InputMethodInfo imi) { List>> imsList = getEnabledInputMethodsAndSubtypeListLocked(); ArrayList enabledSubtypes = new ArrayList<>(); if (imi != null) { for (Pair> imsPair : imsList) { InputMethodInfo info = mMethodMap.get(imsPair.first); if (info != null && info.getId().equals(imi.getId())) { final int subtypeCount = info.getSubtypeCount(); for (int i = 0; i < subtypeCount; ++i) { InputMethodSubtype ims = info.getSubtypeAt(i); for (String s: imsPair.second) { if (String.valueOf(ims.hashCode()).equals(s)) { enabledSubtypes.add(ims); } } } break; } } } return enabledSubtypes; } // At the initial boot, the settings for input methods are not set, // so we need to enable IME in that case. public void enableAllIMEsIfThereIsNoEnabledIME() { if (TextUtils.isEmpty(getEnabledInputMethodsStr())) { StringBuilder sb = new StringBuilder(); final int N = mMethodList.size(); for (int i = 0; i < N; i++) { InputMethodInfo imi = mMethodList.get(i); Slog.i(TAG, "Adding: " + imi.getId()); if (i > 0) sb.append(':'); sb.append(imi.getId()); } putEnabledInputMethodsStr(sb.toString()); } } public List>> getEnabledInputMethodsAndSubtypeListLocked() { return buildInputMethodsAndSubtypeList(getEnabledInputMethodsStr(), mInputMethodSplitter, mSubtypeSplitter); } public void appendAndPutEnabledInputMethodLocked(String id, boolean reloadInputMethodStr) { if (reloadInputMethodStr) { getEnabledInputMethodsStr(); } if (TextUtils.isEmpty(mEnabledInputMethodsStrCache)) { // Add in the newly enabled input method. putEnabledInputMethodsStr(id); } else { putEnabledInputMethodsStr( mEnabledInputMethodsStrCache + INPUT_METHOD_SEPARATOR + id); } } /** * Build and put a string of EnabledInputMethods with removing specified Id. * @return the specified id was removed or not. */ public boolean buildAndPutEnabledInputMethodsStrRemovingIdLocked( StringBuilder builder, List>> imsList, String id) { boolean isRemoved = false; boolean needsAppendSeparator = false; for (Pair> ims: imsList) { String curId = ims.first; if (curId.equals(id)) { // We are disabling this input method, and it is // currently enabled. Skip it to remove from the // new list. isRemoved = true; } else { if (needsAppendSeparator) { builder.append(INPUT_METHOD_SEPARATOR); } else { needsAppendSeparator = true; } buildEnabledInputMethodsSettingString(builder, ims); } } if (isRemoved) { // Update the setting with the new list of input methods. putEnabledInputMethodsStr(builder.toString()); } return isRemoved; } private ArrayList createEnabledInputMethodListLocked( List>> imsList) { final ArrayList res = new ArrayList<>(); for (Pair> ims: imsList) { InputMethodInfo info = mMethodMap.get(ims.first); if (info != null) { res.add(info); } } return res; } private void putEnabledInputMethodsStr(@Nullable String str) { if (DEBUG) { Slog.d(TAG, "putEnabledInputMethodStr: " + str); } if (TextUtils.isEmpty(str)) { // OK to coalesce to null, since getEnabledInputMethodsStr() can take care of the // empty data scenario. putString(Settings.Secure.ENABLED_INPUT_METHODS, null); } else { putString(Settings.Secure.ENABLED_INPUT_METHODS, str); } // TODO: Update callers of putEnabledInputMethodsStr to make str @NonNull. mEnabledInputMethodsStrCache = (str != null ? str : ""); } @NonNull public String getEnabledInputMethodsStr() { mEnabledInputMethodsStrCache = getString(Settings.Secure.ENABLED_INPUT_METHODS, ""); if (DEBUG) { Slog.d(TAG, "getEnabledInputMethodsStr: " + mEnabledInputMethodsStrCache + ", " + mCurrentUserId); } return mEnabledInputMethodsStrCache; } private void saveSubtypeHistory( List> savedImes, String newImeId, String newSubtypeId) { StringBuilder builder = new StringBuilder(); boolean isImeAdded = false; if (!TextUtils.isEmpty(newImeId) && !TextUtils.isEmpty(newSubtypeId)) { builder.append(newImeId).append(INPUT_METHOD_SUBTYPE_SEPARATOR).append( newSubtypeId); isImeAdded = true; } for (Pair ime: savedImes) { String imeId = ime.first; String subtypeId = ime.second; if (TextUtils.isEmpty(subtypeId)) { subtypeId = NOT_A_SUBTYPE_ID_STR; } if (isImeAdded) { builder.append(INPUT_METHOD_SEPARATOR); } else { isImeAdded = true; } builder.append(imeId).append(INPUT_METHOD_SUBTYPE_SEPARATOR).append( subtypeId); } // Remove the last INPUT_METHOD_SEPARATOR putSubtypeHistoryStr(builder.toString()); } private void addSubtypeToHistory(String imeId, String subtypeId) { List> subtypeHistory = loadInputMethodAndSubtypeHistoryLocked(); for (Pair ime: subtypeHistory) { if (ime.first.equals(imeId)) { if (DEBUG) { Slog.v(TAG, "Subtype found in the history: " + imeId + ", " + ime.second); } // We should break here subtypeHistory.remove(ime); break; } } if (DEBUG) { Slog.v(TAG, "Add subtype to the history: " + imeId + ", " + subtypeId); } saveSubtypeHistory(subtypeHistory, imeId, subtypeId); } private void putSubtypeHistoryStr(@NonNull String str) { if (DEBUG) { Slog.d(TAG, "putSubtypeHistoryStr: " + str); } if (TextUtils.isEmpty(str)) { // OK to coalesce to null, since getSubtypeHistoryStr() can take care of the empty // data scenario. putString(Settings.Secure.INPUT_METHODS_SUBTYPE_HISTORY, null); } else { putString(Settings.Secure.INPUT_METHODS_SUBTYPE_HISTORY, str); } } public Pair getLastInputMethodAndSubtypeLocked() { // Gets the first one from the history return getLastSubtypeForInputMethodLockedInternal(null); } public String getLastSubtypeForInputMethodLocked(String imeId) { Pair ime = getLastSubtypeForInputMethodLockedInternal(imeId); if (ime != null) { return ime.second; } else { return null; } } private Pair getLastSubtypeForInputMethodLockedInternal(String imeId) { List>> enabledImes = getEnabledInputMethodsAndSubtypeListLocked(); List> subtypeHistory = loadInputMethodAndSubtypeHistoryLocked(); for (Pair imeAndSubtype : subtypeHistory) { final String imeInTheHistory = imeAndSubtype.first; // If imeId is empty, returns the first IME and subtype in the history if (TextUtils.isEmpty(imeId) || imeInTheHistory.equals(imeId)) { final String subtypeInTheHistory = imeAndSubtype.second; final String subtypeHashCode = getEnabledSubtypeHashCodeForInputMethodAndSubtypeLocked( enabledImes, imeInTheHistory, subtypeInTheHistory); if (!TextUtils.isEmpty(subtypeHashCode)) { if (DEBUG) { Slog.d(TAG, "Enabled subtype found in the history: " + subtypeHashCode); } return new Pair<>(imeInTheHistory, subtypeHashCode); } } } if (DEBUG) { Slog.d(TAG, "No enabled IME found in the history"); } return null; } private String getEnabledSubtypeHashCodeForInputMethodAndSubtypeLocked(List>> enabledImes, String imeId, String subtypeHashCode) { for (Pair> enabledIme: enabledImes) { if (enabledIme.first.equals(imeId)) { final ArrayList explicitlyEnabledSubtypes = enabledIme.second; final InputMethodInfo imi = mMethodMap.get(imeId); if (explicitlyEnabledSubtypes.size() == 0) { // If there are no explicitly enabled subtypes, applicable subtypes are // enabled implicitly. // If IME is enabled and no subtypes are enabled, applicable subtypes // are enabled implicitly, so needs to treat them to be enabled. if (imi != null && imi.getSubtypeCount() > 0) { List implicitlySelectedSubtypes = getImplicitlyApplicableSubtypesLocked(mRes, imi); if (implicitlySelectedSubtypes != null) { final int N = implicitlySelectedSubtypes.size(); for (int i = 0; i < N; ++i) { final InputMethodSubtype st = implicitlySelectedSubtypes.get(i); if (String.valueOf(st.hashCode()).equals(subtypeHashCode)) { return subtypeHashCode; } } } } } else { for (String s: explicitlyEnabledSubtypes) { if (s.equals(subtypeHashCode)) { // If both imeId and subtypeId are enabled, return subtypeId. try { final int hashCode = Integer.parseInt(subtypeHashCode); // Check whether the subtype id is valid or not if (isValidSubtypeId(imi, hashCode)) { return s; } else { return NOT_A_SUBTYPE_ID_STR; } } catch (NumberFormatException e) { return NOT_A_SUBTYPE_ID_STR; } } } } // If imeId was enabled but subtypeId was disabled. return NOT_A_SUBTYPE_ID_STR; } } // If both imeId and subtypeId are disabled, return null return null; } private List> loadInputMethodAndSubtypeHistoryLocked() { ArrayList> imsList = new ArrayList<>(); final String subtypeHistoryStr = getSubtypeHistoryStr(); if (TextUtils.isEmpty(subtypeHistoryStr)) { return imsList; } mInputMethodSplitter.setString(subtypeHistoryStr); while (mInputMethodSplitter.hasNext()) { String nextImsStr = mInputMethodSplitter.next(); mSubtypeSplitter.setString(nextImsStr); if (mSubtypeSplitter.hasNext()) { String subtypeId = NOT_A_SUBTYPE_ID_STR; // The first element is ime id. String imeId = mSubtypeSplitter.next(); while (mSubtypeSplitter.hasNext()) { subtypeId = mSubtypeSplitter.next(); break; } imsList.add(new Pair<>(imeId, subtypeId)); } } return imsList; } @NonNull private String getSubtypeHistoryStr() { final String history = getString(Settings.Secure.INPUT_METHODS_SUBTYPE_HISTORY, ""); if (DEBUG) { Slog.d(TAG, "getSubtypeHistoryStr: " + history); } return history; } public void putSelectedInputMethod(String imeId) { if (DEBUG) { Slog.d(TAG, "putSelectedInputMethodStr: " + imeId + ", " + mCurrentUserId); } putString(Settings.Secure.DEFAULT_INPUT_METHOD, imeId); } public void putSelectedSubtype(int subtypeId) { if (DEBUG) { Slog.d(TAG, "putSelectedInputMethodSubtypeStr: " + subtypeId + ", " + mCurrentUserId); } putInt(Settings.Secure.SELECTED_INPUT_METHOD_SUBTYPE, subtypeId); } @Nullable public String getSelectedInputMethod() { final String imi = getString(Settings.Secure.DEFAULT_INPUT_METHOD, null); if (DEBUG) { Slog.d(TAG, "getSelectedInputMethodStr: " + imi); } return imi; } public boolean isSubtypeSelected() { return getSelectedInputMethodSubtypeHashCode() != NOT_A_SUBTYPE_ID; } private int getSelectedInputMethodSubtypeHashCode() { return getInt(Settings.Secure.SELECTED_INPUT_METHOD_SUBTYPE, NOT_A_SUBTYPE_ID); } public boolean isShowImeWithHardKeyboardEnabled() { return getBoolean(Settings.Secure.SHOW_IME_WITH_HARD_KEYBOARD, false); } public void setShowImeWithHardKeyboard(boolean show) { putBoolean(Settings.Secure.SHOW_IME_WITH_HARD_KEYBOARD, show); } @UserIdInt public int getCurrentUserId() { return mCurrentUserId; } public int getSelectedInputMethodSubtypeId(String selectedImiId) { final InputMethodInfo imi = mMethodMap.get(selectedImiId); if (imi == null) { return NOT_A_SUBTYPE_ID; } final int subtypeHashCode = getSelectedInputMethodSubtypeHashCode(); return getSubtypeIdFromHashCode(imi, subtypeHashCode); } public void saveCurrentInputMethodAndSubtypeToHistory( String curMethodId, InputMethodSubtype currentSubtype) { String subtypeId = NOT_A_SUBTYPE_ID_STR; if (currentSubtype != null) { subtypeId = String.valueOf(currentSubtype.hashCode()); } if (canAddToLastInputMethod(currentSubtype)) { addSubtypeToHistory(curMethodId, subtypeId); } } public HashMap> getExplicitlyOrImplicitlyEnabledInputMethodsAndSubtypeListLocked(Context context) { HashMap> enabledInputMethodAndSubtypes = new HashMap<>(); for (InputMethodInfo imi: getEnabledInputMethodListLocked()) { enabledInputMethodAndSubtypes.put( imi, getEnabledInputMethodSubtypeListLocked(context, imi, true)); } return enabledInputMethodAndSubtypes; } public void dumpLocked(final Printer pw, final String prefix) { pw.println(prefix + "mCurrentUserId=" + mCurrentUserId); pw.println(prefix + "mCurrentProfileIds=" + Arrays.toString(mCurrentProfileIds)); pw.println(prefix + "mCopyOnWrite=" + mCopyOnWrite); pw.println(prefix + "mEnabledInputMethodsStrCache=" + mEnabledInputMethodsStrCache); } } // For spell checker service manager. // TODO: Should we have TextServicesUtils.java? private static final Locale LOCALE_EN_US = new Locale("en", "US"); private static final Locale LOCALE_EN_GB = new Locale("en", "GB"); /** * Returns a list of {@link Locale} in the order of appropriateness for the default spell * checker service. * *

If the system language is English, and the region is also explicitly specified in the * system locale, the following fallback order will be applied.

*
    *
  • (system-locale-language, system-locale-region, system-locale-variant) (if exists)
    • *
  • (system-locale-language, system-locale-region)
    • *
  • ("en", "US")
    • *
  • ("en", "GB")
    • *
  • ("en")
    • *
* *

If the system language is English, but no region is specified in the system locale, * the following fallback order will be applied.

*
    *
  • ("en")
    • *
  • ("en", "US")
    • *
  • ("en", "GB")
    • *
* *

If the system language is not English, the following fallback order will be applied.

*
    *
  • (system-locale-language, system-locale-region, system-locale-variant) (if exists)
    • *
  • (system-locale-language, system-locale-region) (if exists)
    • *
  • (system-locale-language) (if exists)
    • *
  • ("en", "US")
    • *
  • ("en", "GB")
    • *
  • ("en")
    • *
* * @param systemLocale the current system locale to be taken into consideration. * @return a list of {@link Locale}. The first one is considered to be most appropriate. */ @VisibleForTesting public static ArrayList getSuitableLocalesForSpellChecker( @Nullable final Locale systemLocale) { final Locale systemLocaleLanguageCountryVariant; final Locale systemLocaleLanguageCountry; final Locale systemLocaleLanguage; if (systemLocale != null) { final String language = systemLocale.getLanguage(); final boolean hasLanguage = !TextUtils.isEmpty(language); final String country = systemLocale.getCountry(); final boolean hasCountry = !TextUtils.isEmpty(country); final String variant = systemLocale.getVariant(); final boolean hasVariant = !TextUtils.isEmpty(variant); if (hasLanguage && hasCountry && hasVariant) { systemLocaleLanguageCountryVariant = new Locale(language, country, variant); } else { systemLocaleLanguageCountryVariant = null; } if (hasLanguage && hasCountry) { systemLocaleLanguageCountry = new Locale(language, country); } else { systemLocaleLanguageCountry = null; } if (hasLanguage) { systemLocaleLanguage = new Locale(language); } else { systemLocaleLanguage = null; } } else { systemLocaleLanguageCountryVariant = null; systemLocaleLanguageCountry = null; systemLocaleLanguage = null; } final ArrayList locales = new ArrayList<>(); if (systemLocaleLanguageCountryVariant != null) { locales.add(systemLocaleLanguageCountryVariant); } if (Locale.ENGLISH.equals(systemLocaleLanguage)) { if (systemLocaleLanguageCountry != null) { // If the system language is English, and the region is also explicitly specified, // following fallback order will be applied. // - systemLocaleLanguageCountry [if systemLocaleLanguageCountry is non-null] // - en_US [if systemLocaleLanguageCountry is non-null and not en_US] // - en_GB [if systemLocaleLanguageCountry is non-null and not en_GB] // - en if (systemLocaleLanguageCountry != null) { locales.add(systemLocaleLanguageCountry); } if (!LOCALE_EN_US.equals(systemLocaleLanguageCountry)) { locales.add(LOCALE_EN_US); } if (!LOCALE_EN_GB.equals(systemLocaleLanguageCountry)) { locales.add(LOCALE_EN_GB); } locales.add(Locale.ENGLISH); } else { // If the system language is English, but no region is specified, following // fallback order will be applied. // - en // - en_US // - en_GB locales.add(Locale.ENGLISH); locales.add(LOCALE_EN_US); locales.add(LOCALE_EN_GB); } } else { // If the system language is not English, the fallback order will be // - systemLocaleLanguageCountry [if non-null] // - systemLocaleLanguage [if non-null] // - en_US // - en_GB // - en if (systemLocaleLanguageCountry != null) { locales.add(systemLocaleLanguageCountry); } if (systemLocaleLanguage != null) { locales.add(systemLocaleLanguage); } locales.add(LOCALE_EN_US); locales.add(LOCALE_EN_GB); locales.add(Locale.ENGLISH); } return locales; } }