Java tutorial
/* * Copyright (C) 2009 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.screenspeak.eventprocessor; import android.os.Message; import android.support.v4.view.accessibility.AccessibilityEventCompat; import android.support.v4.view.accessibility.AccessibilityNodeInfoCompat; import android.support.v4.view.accessibility.AccessibilityRecordCompat; import android.view.View; import android.os.Build; import android.os.Bundle; import android.os.SystemClock; import android.util.Log; import android.view.accessibility.AccessibilityEvent; import com.android.screenspeak.R; import com.android.screenspeak.SpeechController; import com.google.android.marvin.screenspeak.ScreenSpeakService; import com.android.screenspeak.Utterance; import com.android.screenspeak.formatter.EventSpeechRuleProcessor; import com.android.screenspeak.eventprocessor.AccessibilityEventProcessor.ScreenSpeakListener; import com.android.utils.AccessibilityEventListener; import com.android.utils.LogUtils; import com.android.utils.StringBuilderUtils; import com.android.utils.WeakReferenceHandler; /** * Manages the event feedback queue. Queued events are run through the * {@link EventSpeechRuleProcessor} to generate spoken, haptic, and audible * feedback. */ public class ProcessorEventQueue implements AccessibilityEventListener { /** Manages pending speech events. */ private final ProcessorEventHandler mHandler = new ProcessorEventHandler(this); /** * We keep the accessibility events to be processed. If a received event is * the same type as the previous one it replaces the latter, otherwise it is * added to the queue. All events in this queue are processed while we speak * and this occurs after a certain timeout since the last received event. */ private final EventQueue mEventQueue = new EventQueue(); private final SpeechController mSpeechController; /** * Processor for {@link AccessibilityEvent}s that populates * {@link Utterance}s. */ private EventSpeechRuleProcessor mEventSpeechRuleProcessor; /** ScreenSpeak-specific listener used for testing. */ private ScreenSpeakListener mTestingListener; /** Event type for the most recently processed event. */ private int mLastEventType; /** Event time for the most recent window state changed event. */ private long mLastWindowStateChanged = 0; public ProcessorEventQueue(SpeechController speechController, ScreenSpeakService context) { if (speechController == null) throw new IllegalStateException(); mSpeechController = speechController; mEventSpeechRuleProcessor = new EventSpeechRuleProcessor(context); loadDefaultRules(); } public void setTestingListener(ScreenSpeakListener testingListener) { mTestingListener = testingListener; } @Override public void onAccessibilityEvent(AccessibilityEvent event) { final int eventType = event.getEventType(); if (eventType == AccessibilityEvent.TYPE_WINDOW_STATE_CHANGED) { mLastWindowStateChanged = SystemClock.uptimeMillis(); } synchronized (mEventQueue) { mEventQueue.enqueue(event); mHandler.postSpeak(); } } /** * Loads default speech strategies based on the current SDK version. */ private void loadDefaultRules() { // Add version-specific speech strategies for semi-bundled apps. mEventSpeechRuleProcessor.addSpeechStrategy(R.raw.speechstrategy_apps); mEventSpeechRuleProcessor.addSpeechStrategy(R.raw.speechstrategy_googletv); // Add platform-specific speech strategies for bundled apps. if (Build.VERSION.SDK_INT >= 19) { mEventSpeechRuleProcessor.addSpeechStrategy(R.raw.speechstrategy_kitkat); } else if (Build.VERSION.SDK_INT >= 16) { mEventSpeechRuleProcessor.addSpeechStrategy(R.raw.speechstrategy_jellybean); } // Add generic speech strategy. This should always be added last so that // the app-specific rules above can override the generic rules. mEventSpeechRuleProcessor.addSpeechStrategy(R.raw.speechstrategy); } /** * Processes an <code>event</code> by asking the * {@link EventSpeechRuleProcessor} to match it against its rules and in * case an utterance is generated it is spoken. This method is responsible * for recycling of the processed event. * * @param event The event to process. */ private void processAndRecycleEvent(AccessibilityEvent event) { if (event == null) return; LogUtils.log(this, Log.DEBUG, "Processing event: %s", event); final Utterance utterance = new Utterance(); if (mEventSpeechRuleProcessor.processEvent(event, utterance)) { if (mTestingListener != null) { mTestingListener.onUtteranceQueued(utterance); } provideFeedbackForUtterance(computeQueuingMode(utterance, event), utterance); } else { // Failed to match event to a rule, so the utterance is empty. LogUtils.log(this, Log.WARN, "Failed to process event"); } event.recycle(); } /** * Provides feedback for the specified utterance. * * @param queueMode The queueMode of the Utterance. * @param utterance The utterance to provide feedback for. */ private void provideFeedbackForUtterance(int queueMode, Utterance utterance) { final Bundle metadata = utterance.getMetadata(); final float earconRate = metadata.getFloat(Utterance.KEY_METADATA_EARCON_RATE, 1.0f); final float earconVolume = metadata.getFloat(Utterance.KEY_METADATA_EARCON_VOLUME, 1.0f); final Bundle nonSpeechMetadata = new Bundle(); nonSpeechMetadata.putFloat(Utterance.KEY_METADATA_EARCON_RATE, earconRate); nonSpeechMetadata.putFloat(Utterance.KEY_METADATA_EARCON_VOLUME, earconVolume); // Retrieve and play all spoken text. final CharSequence textToSpeak = StringBuilderUtils.getAggregateText(utterance.getSpoken()); final int flags = metadata.getInt(Utterance.KEY_METADATA_SPEECH_FLAGS, 0); final Bundle speechMetadata = metadata.getBundle(Utterance.KEY_METADATA_SPEECH_PARAMS); final int utteranceGroup = utterance.getMetadata().getInt(Utterance.KEY_UTTERANCE_GROUP, SpeechController.UTTERANCE_GROUP_DEFAULT); mSpeechController.speak(textToSpeak, utterance.getAuditory(), utterance.getHaptic(), queueMode, flags, utteranceGroup, speechMetadata, nonSpeechMetadata); } /** * Computes the queuing mode for the current utterance. * * @param utterance to compute queuing from * @return A queuing mode, one of: * <ul> * <li>{@link SpeechController#QUEUE_MODE_INTERRUPT} * <li>{@link SpeechController#QUEUE_MODE_QUEUE} * <li>{@link SpeechController#QUEUE_MODE_UNINTERRUPTIBLE} * </ul> */ private int computeQueuingMode(Utterance utterance, AccessibilityEvent event) { final Bundle metadata = utterance.getMetadata(); final int eventType = event.getEventType(); // Queue events that occur automatically after window state changes. if (((event.getEventType() & AccessibilityEventProcessor.AUTOMATIC_AFTER_STATE_CHANGE) != 0) && ((event.getEventTime() - mLastWindowStateChanged) < AccessibilityEventProcessor.DELAY_AUTO_AFTER_STATE)) { return SpeechController.QUEUE_MODE_QUEUE; } if (eventType == AccessibilityEvent.TYPE_WINDOW_CONTENT_CHANGED) { AccessibilityRecordCompat record = AccessibilityEventCompat.asRecord(event); AccessibilityNodeInfoCompat node = record.getSource(); if (node != null) { int liveRegionMode = node.getLiveRegion(); if (liveRegionMode == View.ACCESSIBILITY_LIVE_REGION_POLITE) { return SpeechController.QUEUE_MODE_QUEUE; } } } int queueMode = metadata.getInt(Utterance.KEY_METADATA_QUEUING, SpeechController.QUEUE_MODE_INTERRUPT); // Always collapse events of the same type. if (mLastEventType == eventType && queueMode != SpeechController.QUEUE_MODE_UNINTERRUPTIBLE) { return SpeechController.QUEUE_MODE_INTERRUPT; } mLastEventType = eventType; return queueMode; } private static class ProcessorEventHandler extends WeakReferenceHandler<ProcessorEventQueue> { /** Speak action. */ private static final int WHAT_SPEAK = 1; public ProcessorEventHandler(ProcessorEventQueue parent) { super(parent); } @Override public void handleMessage(Message message, ProcessorEventQueue parent) { switch (message.what) { case WHAT_SPEAK: processAllEvents(parent); break; } } /** * Attempts to process all events in the queue. */ private void processAllEvents(ProcessorEventQueue parent) { while (true) { final AccessibilityEvent event; synchronized (parent.mEventQueue) { if (parent.mEventQueue.isEmpty()) { return; } event = parent.mEventQueue.dequeue(); } parent.processAndRecycleEvent(event); } } /** * Sends {@link #WHAT_SPEAK} to the speech handler. This method cancels * the old message (if such exists) since it is no longer relevant. */ public void postSpeak() { if (!hasMessages(WHAT_SPEAK)) { sendEmptyMessage(WHAT_SPEAK); } } } }