/* * Copyright (c) 1998, 2019, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package sun.awt.im; import java.awt.AWTException; import java.awt.CheckboxMenuItem; import java.awt.Component; import java.awt.Dialog; import java.awt.EventQueue; import java.awt.Frame; import java.awt.PopupMenu; import java.awt.Menu; import java.awt.MenuItem; import java.awt.Toolkit; import sun.awt.AppContext; import java.awt.event.ActionEvent; import java.awt.event.ActionListener; import java.awt.event.InvocationEvent; import java.awt.im.spi.InputMethodDescriptor; import java.lang.reflect.InvocationTargetException; import java.security.AccessController; import java.security.PrivilegedAction; import java.security.PrivilegedActionException; import java.security.PrivilegedExceptionAction; import java.util.Hashtable; import java.util.Iterator; import java.util.Locale; import java.util.ServiceLoader; import java.util.Vector; import java.util.Set; import java.util.prefs.BackingStoreException; import java.util.prefs.Preferences; import sun.awt.InputMethodSupport; import sun.awt.SunToolkit; /** * {@code ExecutableInputMethodManager} is the implementation of the * {@code InputMethodManager} class. It is runnable as a separate * thread in the AWT environment.  * {@code InputMethodManager.getInstance()} creates an instance of * {@code ExecutableInputMethodManager} and executes it as a deamon * thread. * * @see InputMethodManager */ class ExecutableInputMethodManager extends InputMethodManager implements Runnable { // the input context that's informed about selections from the user interface private InputContext currentInputContext; // Menu item string for the trigger menu. private String triggerMenuString; // popup menu for selecting an input method private InputMethodPopupMenu selectionMenu; private static String selectInputMethodMenuTitle; // locator and name of host adapter private InputMethodLocator hostAdapterLocator; // locators for Java input methods private int javaInputMethodCount; // number of Java input methods found private Vector javaInputMethodLocatorList; // component that is requesting input method switch // must be Frame or Dialog private Component requestComponent; // input context that is requesting input method switch private InputContext requestInputContext; // IM preference stuff private static final String preferredIMNode = "/sun/awt/im/preferredInputMethod"; private static final String descriptorKey = "descriptor"; private Hashtable preferredLocatorCache = new Hashtable<>(); private Preferences userRoot; ExecutableInputMethodManager() { // set up host adapter locator Toolkit toolkit = Toolkit.getDefaultToolkit(); try { if (toolkit instanceof InputMethodSupport) { InputMethodDescriptor hostAdapterDescriptor = ((InputMethodSupport)toolkit) .getInputMethodAdapterDescriptor(); if (hostAdapterDescriptor != null) { hostAdapterLocator = new InputMethodLocator(hostAdapterDescriptor, null, null); } } } catch (AWTException e) { // if we can't get a descriptor, we'll just have to do without native input methods } javaInputMethodLocatorList = new Vector(); initializeInputMethodLocatorList(); } synchronized void initialize() { selectInputMethodMenuTitle = Toolkit.getProperty("AWT.InputMethodSelectionMenu", "Select Input Method"); triggerMenuString = selectInputMethodMenuTitle; } public void run() { // If there are no multiple input methods to choose from, wait forever while (!hasMultipleInputMethods()) { try { synchronized (this) { wait(); } } catch (InterruptedException e) { } } // Loop for processing input method change requests while (true) { waitForChangeRequest(); initializeInputMethodLocatorList(); try { if (requestComponent != null) { showInputMethodMenuOnRequesterEDT(requestComponent); } else { // show the popup menu within the event thread EventQueue.invokeAndWait(new Runnable() { public void run() { showInputMethodMenu(); } }); } } catch (InterruptedException ie) { } catch (InvocationTargetException ite) { // should we do anything under these exceptions? } } } // Shows Input Method Menu on the EDT of requester component // to avoid side effects. See 6544309. private void showInputMethodMenuOnRequesterEDT(Component requester) throws InterruptedException, InvocationTargetException { if (requester == null){ return; } class AWTInvocationLock {} Object lock = new AWTInvocationLock(); InvocationEvent event = new InvocationEvent(requester, new Runnable() { public void run() { showInputMethodMenu(); } }, lock, true); AppContext requesterAppContext = SunToolkit.targetToAppContext(requester); synchronized (lock) { SunToolkit.postEvent(requesterAppContext, event); while (!event.isDispatched()) { lock.wait(); } } Throwable eventThrowable = event.getThrowable(); if (eventThrowable != null) { throw new InvocationTargetException(eventThrowable); } } void setInputContext(InputContext inputContext) { if (currentInputContext != null && inputContext != null) { // don't throw this exception until 4237852 is fixed // throw new IllegalStateException("Can't have two active InputContext at the same time"); } currentInputContext = inputContext; } public synchronized void notifyChangeRequest(Component comp) { if (!(comp instanceof Frame || comp instanceof Dialog)) return; // if busy with the current request, ignore this request. if (requestComponent != null) return; requestComponent = comp; notify(); } public synchronized void notifyChangeRequestByHotKey(Component comp) { while (!(comp instanceof Frame || comp instanceof Dialog)) { if (comp == null) { // no Frame or Dialog found in containment hierarchy. return; } comp = comp.getParent(); } notifyChangeRequest(comp); } public String getTriggerMenuString() { return triggerMenuString; } /* * Returns true if the environment indicates there are multiple input methods */ boolean hasMultipleInputMethods() { return ((hostAdapterLocator != null) && (javaInputMethodCount > 0) || (javaInputMethodCount > 1)); } private synchronized void waitForChangeRequest() { try { while (requestComponent == null) { wait(); } } catch (InterruptedException e) { } } /* * initializes the input method locator list for all * installed input method descriptors. */ private void initializeInputMethodLocatorList() { synchronized (javaInputMethodLocatorList) { javaInputMethodLocatorList.clear(); try { AccessController.doPrivileged(new PrivilegedExceptionAction() { public Object run() { for (InputMethodDescriptor descriptor : ServiceLoader.load(InputMethodDescriptor.class, ClassLoader.getSystemClassLoader())) { ClassLoader cl = descriptor.getClass().getClassLoader(); javaInputMethodLocatorList.add(new InputMethodLocator(descriptor, cl, null)); } return null; } }); } catch (PrivilegedActionException e) { e.printStackTrace(); } javaInputMethodCount = javaInputMethodLocatorList.size(); } if (hasMultipleInputMethods()) { // initialize preferences if (userRoot == null) { userRoot = getUserRoot(); } } else { // indicate to clients not to offer the menu triggerMenuString = null; } } private void showInputMethodMenu() { if (!hasMultipleInputMethods()) { requestComponent = null; return; } // initialize pop-up menu selectionMenu = InputMethodPopupMenu.getInstance(requestComponent, selectInputMethodMenuTitle); // we have to rebuild the menu each time because // some input methods (such as IIIMP) may change // their list of supported locales dynamically selectionMenu.removeAll(); // get information about the currently selected input method // ??? if there's no current input context, what's the point // of showing the menu? String currentSelection = getCurrentSelection(); // Add menu item for host adapter if (hostAdapterLocator != null) { selectionMenu.addOneInputMethodToMenu(hostAdapterLocator, currentSelection); selectionMenu.addSeparator(); } // Add menu items for other input methods for (int i = 0; i < javaInputMethodLocatorList.size(); i++) { InputMethodLocator locator = javaInputMethodLocatorList.get(i); selectionMenu.addOneInputMethodToMenu(locator, currentSelection); } synchronized (this) { selectionMenu.addToComponent(requestComponent); requestInputContext = currentInputContext; selectionMenu.show(requestComponent, 60, 80); // TODO: get proper x, y... requestComponent = null; } } private String getCurrentSelection() { InputContext inputContext = currentInputContext; if (inputContext != null) { InputMethodLocator locator = inputContext.getInputMethodLocator(); if (locator != null) { return locator.getActionCommandString(); } } return null; } synchronized void changeInputMethod(String choice) { InputMethodLocator locator = null; String inputMethodName = choice; String localeString = null; int index = choice.indexOf('\n'); if (index != -1) { localeString = choice.substring(index + 1); inputMethodName = choice.substring(0, index); } if (hostAdapterLocator.getActionCommandString().equals(inputMethodName)) { locator = hostAdapterLocator; } else { for (int i = 0; i < javaInputMethodLocatorList.size(); i++) { InputMethodLocator candidate = javaInputMethodLocatorList.get(i); String name = candidate.getActionCommandString(); if (name.equals(inputMethodName)) { locator = candidate; break; } } } if (locator != null && localeString != null) { String language = "", country = "", variant = ""; int postIndex = localeString.indexOf('_'); if (postIndex == -1) { language = localeString; } else { language = localeString.substring(0, postIndex); int preIndex = postIndex + 1; postIndex = localeString.indexOf('_', preIndex); if (postIndex == -1) { country = localeString.substring(preIndex); } else { country = localeString.substring(preIndex, postIndex); variant = localeString.substring(postIndex + 1); } } Locale locale = new Locale(language, country, variant); locator = locator.deriveLocator(locale); } if (locator == null) return; // tell the input context about the change if (requestInputContext != null) { requestInputContext.changeInputMethod(locator); requestInputContext = null; // remember the selection putPreferredInputMethod(locator); } } InputMethodLocator findInputMethod(Locale locale) { // look for preferred input method first InputMethodLocator locator = getPreferredInputMethod(locale); if (locator != null) { return locator; } if (hostAdapterLocator != null && hostAdapterLocator.isLocaleAvailable(locale)) { return hostAdapterLocator.deriveLocator(locale); } // Update the locator list initializeInputMethodLocatorList(); for (int i = 0; i < javaInputMethodLocatorList.size(); i++) { InputMethodLocator candidate = javaInputMethodLocatorList.get(i); if (candidate.isLocaleAvailable(locale)) { return candidate.deriveLocator(locale); } } return null; } Locale getDefaultKeyboardLocale() { Toolkit toolkit = Toolkit.getDefaultToolkit(); if (toolkit instanceof InputMethodSupport) { return ((InputMethodSupport)toolkit).getDefaultKeyboardLocale(); } else { return Locale.getDefault(); } } /** * Returns a InputMethodLocator object that the * user prefers for the given locale. * * @param locale Locale for which the user prefers the input method. */ private synchronized InputMethodLocator getPreferredInputMethod(Locale locale) { InputMethodLocator preferredLocator = null; if (!hasMultipleInputMethods()) { // No need to look for a preferred Java input method return null; } // look for the cached preference first. preferredLocator = preferredLocatorCache.get(locale.toString().intern()); if (preferredLocator != null) { return preferredLocator; } // look for the preference in the user preference tree String nodePath = findPreferredInputMethodNode(locale); String descriptorName = readPreferredInputMethod(nodePath); Locale advertised; // get the locator object if (descriptorName != null) { // check for the host adapter first if (hostAdapterLocator != null && hostAdapterLocator.getDescriptor().getClass().getName().equals(descriptorName)) { advertised = getAdvertisedLocale(hostAdapterLocator, locale); if (advertised != null) { preferredLocator = hostAdapterLocator.deriveLocator(advertised); preferredLocatorCache.put(locale.toString().intern(), preferredLocator); } return preferredLocator; } // look for Java input methods for (int i = 0; i < javaInputMethodLocatorList.size(); i++) { InputMethodLocator locator = javaInputMethodLocatorList.get(i); InputMethodDescriptor descriptor = locator.getDescriptor(); if (descriptor.getClass().getName().equals(descriptorName)) { advertised = getAdvertisedLocale(locator, locale); if (advertised != null) { preferredLocator = locator.deriveLocator(advertised); preferredLocatorCache.put(locale.toString().intern(), preferredLocator); } return preferredLocator; } } // maybe preferred input method information is bogus. writePreferredInputMethod(nodePath, null); } return null; } private String findPreferredInputMethodNode(Locale locale) { if (userRoot == null) { return null; } // create locale node relative path String nodePath = preferredIMNode + "/" + createLocalePath(locale); // look for the descriptor while (!nodePath.equals(preferredIMNode)) { try { if (userRoot.nodeExists(nodePath)) { if (readPreferredInputMethod(nodePath) != null) { return nodePath; } } } catch (BackingStoreException bse) { } // search at parent's node nodePath = nodePath.substring(0, nodePath.lastIndexOf('/')); } return null; } private String readPreferredInputMethod(String nodePath) { if ((userRoot == null) || (nodePath == null)) { return null; } return userRoot.node(nodePath).get(descriptorKey, null); } /** * Writes the preferred input method descriptor class name into * the user's Preferences tree in accordance with the given locale. * * @param locator input method locator to remember. */ private synchronized void putPreferredInputMethod(InputMethodLocator locator) { InputMethodDescriptor descriptor = locator.getDescriptor(); Locale preferredLocale = locator.getLocale(); if (preferredLocale == null) { // check available locales of the input method try { Locale[] availableLocales = descriptor.getAvailableLocales(); if (availableLocales.length == 1) { preferredLocale = availableLocales[0]; } else { // there is no way to know which locale is the preferred one, so do nothing. return; } } catch (AWTException ae) { // do nothing here, either. return; } } // for regions that have only one language, we need to regard // "xx_YY" as "xx" when putting the preference into tree if (preferredLocale.equals(Locale.JAPAN)) { preferredLocale = Locale.JAPANESE; } if (preferredLocale.equals(Locale.KOREA)) { preferredLocale = Locale.KOREAN; } if (preferredLocale.equals(new Locale("th", "TH"))) { preferredLocale = new Locale("th"); } // obtain node String path = preferredIMNode + "/" + createLocalePath(preferredLocale); // write in the preference tree writePreferredInputMethod(path, descriptor.getClass().getName()); preferredLocatorCache.put(preferredLocale.toString().intern(), locator.deriveLocator(preferredLocale)); return; } private String createLocalePath(Locale locale) { String language = locale.getLanguage(); String country = locale.getCountry(); String variant = locale.getVariant(); String localePath = null; if (!variant.isEmpty()) { localePath = "_" + language + "/_" + country + "/_" + variant; } else if (!country.isEmpty()) { localePath = "_" + language + "/_" + country; } else { localePath = "_" + language; } return localePath; } private void writePreferredInputMethod(String path, String descriptorName) { if (userRoot != null) { Preferences node = userRoot.node(path); // record it if (descriptorName != null) { node.put(descriptorKey, descriptorName); } else { node.remove(descriptorKey); } } } private Preferences getUserRoot() { return AccessController.doPrivileged(new PrivilegedAction() { public Preferences run() { return Preferences.userRoot(); } }); } private Locale getAdvertisedLocale(InputMethodLocator locator, Locale locale) { Locale advertised = null; if (locator.isLocaleAvailable(locale)) { advertised = locale; } else if (locale.getLanguage().equals("ja")) { // for Japanese, Korean, and Thai, check whether the input method supports // language or language_COUNTRY. if (locator.isLocaleAvailable(Locale.JAPAN)) { advertised = Locale.JAPAN; } else if (locator.isLocaleAvailable(Locale.JAPANESE)) { advertised = Locale.JAPANESE; } } else if (locale.getLanguage().equals("ko")) { if (locator.isLocaleAvailable(Locale.KOREA)) { advertised = Locale.KOREA; } else if (locator.isLocaleAvailable(Locale.KOREAN)) { advertised = Locale.KOREAN; } } else if (locale.getLanguage().equals("th")) { if (locator.isLocaleAvailable(new Locale("th", "TH"))) { advertised = new Locale("th", "TH"); } else if (locator.isLocaleAvailable(new Locale("th"))) { advertised = new Locale("th"); } } return advertised; } }