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

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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.inputmethod.latin;
import android.content.Context;
import android.util.Log;
import com.android.inputmethod.annotations.UsedForTesting;
import com.android.inputmethod.keyboard.ProximityInfo;
import com.android.inputmethod.latin.BinaryDictionary.LanguageModelParam;
import com.android.inputmethod.latin.makedict.FormatSpec;
import com.android.inputmethod.latin.SuggestedWords.SuggestedWordInfo;
import com.android.inputmethod.latin.utils.AsyncResultHolder;
import com.android.inputmethod.latin.utils.CollectionUtils;
import com.android.inputmethod.latin.utils.FileUtils;
import com.android.inputmethod.latin.utils.PrioritizedSerialExecutor;
import java.io.File;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Locale;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicReference;
/**
* Abstract base class for an expandable dictionary that can be created and updated dynamically
* during runtime. When updated it automatically generates a new binary dictionary to handle future
* queries in native code. This binary dictionary is written to internal storage, and potentially
* shared across multiple ExpandableBinaryDictionary instances. Updates to each dictionary filename
* are controlled across multiple instances to ensure that only one instance can update the same
* dictionary at the same time.
*/
abstract public class ExpandableBinaryDictionary extends Dictionary {
/** Used for Log actions from this class */
private static final String TAG = ExpandableBinaryDictionary.class.getSimpleName();
/** Whether to print debug output to log */
private static boolean DEBUG = false;
private static final boolean DBG_STRESS_TEST = false;
private static final int TIMEOUT_FOR_READ_OPS_IN_MILLISECONDS = 100;
/**
* The maximum length of a word in this dictionary.
*/
protected static final int MAX_WORD_LENGTH = Constants.DICTIONARY_MAX_WORD_LENGTH;
private static final int DICTIONARY_FORMAT_VERSION = FormatSpec.VERSION4;
/**
* A static map of update controllers, each of which records the time of accesses to a single
* binary dictionary file and tracks whether the file is regenerating. The key for this map is
* the dictionary name and the value is the shared dictionary time recorder associated with
* that dictionary name.
*/
private static final ConcurrentHashMap<String, DictionaryUpdateController>
sDictNameDictionaryUpdateControllerMap = CollectionUtils.newConcurrentHashMap();
private static final ConcurrentHashMap<String, PrioritizedSerialExecutor>
sDictNameExecutorMap = CollectionUtils.newConcurrentHashMap();
/** The application context. */
protected final Context mContext;
/**
* The binary dictionary generated dynamically from the fusion dictionary. This is used to
* answer unigram and bigram queries.
*/
private BinaryDictionary mBinaryDictionary;
// TODO: Remove and handle dictionaries in native code.
/** The in-memory dictionary used to generate the binary dictionary. */
protected AbstractDictionaryWriter mDictionaryWriter;
/**
* The name of this dictionary, used as a part of the filename for storing the binary
* dictionary. Multiple dictionary instances with the same name is supported, with access
* controlled by DictionaryUpdateController.
*/
private final String mDictName;
/** Dictionary locale */
private final Locale mLocale;
/** Whether to support dynamically updating the dictionary */
private final boolean mIsUpdatable;
/** Dictionary file */
private final File mDictFile;
// TODO: remove, once dynamic operations is serialized
/** Controls updating the shared binary dictionary file across multiple instances. */
private final DictionaryUpdateController mDictNameDictionaryUpdateController;
// TODO: remove, once dynamic operations is serialized
/** Controls updating the local binary dictionary for this instance. */
private final DictionaryUpdateController mPerInstanceDictionaryUpdateController =
new DictionaryUpdateController();
/* A extension for a binary dictionary file. */
public static final String DICT_FILE_EXTENSION = ".dict";
private final AtomicReference<Runnable> mUnfinishedFlushingTask =
new AtomicReference<Runnable>();
/**
* Abstract method for loading the unigrams and bigrams of a given dictionary in a background
* thread.
*/
protected abstract void loadDictionaryAsync();
/**
* Indicates that the source dictionary content has changed and a rebuild of the binary file is
* required. If it returns false, the next reload will only read the current binary dictionary
* from file. Note that the shared binary dictionary is locked when this is called.
*/
protected abstract boolean hasContentChanged();
protected boolean matchesExpectedBinaryDictFormatVersionForThisType(final int formatVersion) {
// This class is using format 2 because it's used by the User and Contacts dictionary
// only, which right now use format 2 (dicts using format 4 use Decaying*, which overrides
// this method).
// TODO: Migrate these dicts to ver4 format, and remove this function.
return formatVersion == FormatSpec.VERSION2;
}
public boolean isValidDictionary() {
return mBinaryDictionary.isValidDictionary();
}
private File getDictFile() {
return mDictFile;
}
/**
* Gets the dictionary update controller for the given dictionary name.
*/
private static DictionaryUpdateController getDictionaryUpdateController(
final String dictName) {
DictionaryUpdateController recorder = sDictNameDictionaryUpdateControllerMap.get(dictName);
if (recorder == null) {
synchronized(sDictNameDictionaryUpdateControllerMap) {
recorder = new DictionaryUpdateController();
sDictNameDictionaryUpdateControllerMap.put(dictName, recorder);
}
}
return recorder;
}
/**
* Gets the executor for the given dictionary name.
*/
private static PrioritizedSerialExecutor getExecutor(final String dictName) {
PrioritizedSerialExecutor executor = sDictNameExecutorMap.get(dictName);
if (executor == null) {
synchronized(sDictNameExecutorMap) {
executor = new PrioritizedSerialExecutor();
sDictNameExecutorMap.put(dictName, executor);
}
}
return executor;
}
/**
* Shutdowns all executors and removes all executors from the executor map for testing.
*/
@UsedForTesting
public static void shutdownAllExecutors() {
synchronized(sDictNameExecutorMap) {
for (final PrioritizedSerialExecutor executor : sDictNameExecutorMap.values()) {
executor.shutdown();
sDictNameExecutorMap.remove(executor);
}
}
}
private static AbstractDictionaryWriter getDictionaryWriter(final Context context,
final boolean isDynamicPersonalizationDictionary) {
if (isDynamicPersonalizationDictionary) {
return null;
} else {
return new DictionaryWriter(context);
}
}
/**
* Creates a new expandable binary dictionary.
*
* @param context The application context of the parent.
* @param dictName The name of the dictionary. Multiple instances with the same
* name is supported.
* @param locale the dictionary locale.
* @param dictType the dictionary type, as a human-readable string
* @param isUpdatable whether to support dynamically updating the dictionary. Please note that
* dynamic dictionary has negative effects on memory space and computation time.
*/
public ExpandableBinaryDictionary(final Context context, final String dictName,
final Locale locale, final String dictType, final boolean isUpdatable) {
this(context, dictName, locale, dictType, isUpdatable,
new File(context.getFilesDir(), dictName + DICT_FILE_EXTENSION));
}
// Creates an instance that uses a given dictionary file.
public ExpandableBinaryDictionary(final Context context, final String dictName,
final Locale locale, final String dictType, final boolean isUpdatable,
final File dictFile) {
super(dictType);
mDictName = dictName;
mContext = context;
mLocale = locale;
mIsUpdatable = isUpdatable;
mDictFile = dictFile;
mBinaryDictionary = null;
mDictNameDictionaryUpdateController = getDictionaryUpdateController(dictName);
// Currently, only dynamic personalization dictionary is updatable.
mDictionaryWriter = getDictionaryWriter(context, isUpdatable);
}
protected static String getDictNameWithLocale(final String name, final Locale locale) {
return name + "." + locale.toString();
}
/**
* Closes and cleans up the binary dictionary.
*/
@Override
public void close() {
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
if (mBinaryDictionary!= null) {
mBinaryDictionary.close();
mBinaryDictionary = null;
}
}
});
}
protected void closeBinaryDictionary() {
// Ensure that no other threads are accessing the local binary dictionary.
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
if (mBinaryDictionary != null) {
mBinaryDictionary.close();
mBinaryDictionary = null;
}
}
});
}
protected Map<String, String> getHeaderAttributeMap() {
HashMap<String, String> attributeMap = new HashMap<String, String>();
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_ID_ATTRIBUTE, mDictName);
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_LOCALE_ATTRIBUTE, mLocale.toString());
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_VERSION_ATTRIBUTE,
String.valueOf(TimeUnit.MILLISECONDS.toSeconds(System.currentTimeMillis())));
return attributeMap;
}
protected void clear() {
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
if (mDictionaryWriter == null) {
mBinaryDictionary.close();
final File file = getDictFile();
if (file.exists() && !FileUtils.deleteRecursively(file)) {
Log.e(TAG, "Can't remove a file: " + file.getName());
}
BinaryDictionary.createEmptyDictFile(file.getAbsolutePath(),
DICTIONARY_FORMAT_VERSION, getHeaderAttributeMap());
mBinaryDictionary = new BinaryDictionary(
file.getAbsolutePath(), 0 /* offset */, file.length(),
true /* useFullEditDistance */, null, mDictType, mIsUpdatable);
} else {
mDictionaryWriter.clear();
}
}
});
}
/**
* Adds a word unigram to the dictionary. Used for loading a dictionary.
* @param word The word to add.
* @param shortcutTarget A shortcut target for this word, or null if none.
* @param frequency The frequency for this unigram.
* @param shortcutFreq The frequency of the shortcut (0~15, with 15 = whitelist). Ignored
* if shortcutTarget is null.
* @param isNotAWord true if this is not a word, i.e. shortcut only.
*/
protected void addWord(final String word, final String shortcutTarget,
final int frequency, final int shortcutFreq, final boolean isNotAWord) {
mDictionaryWriter.addUnigramWord(word, shortcutTarget, frequency, shortcutFreq, isNotAWord);
}
/**
* Adds a word bigram in the dictionary. Used for loading a dictionary.
*/
protected void addBigram(final String prevWord, final String word, final int frequency,
final long lastModifiedTime) {
mDictionaryWriter.addBigramWords(prevWord, word, frequency, true /* isValid */,
lastModifiedTime);
}
/**
* Check whether GC is needed and run GC if required.
*/
protected void runGCIfRequired(final boolean mindsBlockByGC) {
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
runGCIfRequiredInternalLocked(mindsBlockByGC);
}
});
}
private void runGCIfRequiredInternalLocked(final boolean mindsBlockByGC) {
// Calls to needsToRunGC() need to be serialized.
if (mBinaryDictionary.needsToRunGC(mindsBlockByGC)) {
if (setProcessingLargeTaskIfNot()) {
// Run GC after currently existing time sensitive operations.
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
try {
mBinaryDictionary.flushWithGC();
} finally {
mDictNameDictionaryUpdateController.mProcessingLargeTask.set(false);
}
}
});
}
}
}
/**
* Dynamically adds a word unigram to the dictionary. May overwrite an existing entry.
*/
protected void addWordDynamically(final String word, final int frequency,
final String shortcutTarget, final int shortcutFreq, final boolean isNotAWord,
final boolean isBlacklisted, final int timestamp) {
if (!mIsUpdatable) {
Log.w(TAG, "addWordDynamically is called for non-updatable dictionary: " + mDictName);
return;
}
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
runGCIfRequiredInternalLocked(true /* mindsBlockByGC */);
mBinaryDictionary.addUnigramWord(word, frequency, shortcutTarget, shortcutFreq,
isNotAWord, isBlacklisted, timestamp);
}
});
}
/**
* Dynamically adds a word bigram in the dictionary. May overwrite an existing entry.
*/
protected void addBigramDynamically(final String word0, final String word1,
final int frequency, final int timestamp) {
if (!mIsUpdatable) {
Log.w(TAG, "addBigramDynamically is called for non-updatable dictionary: "
+ mDictName);
return;
}
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
runGCIfRequiredInternalLocked(true /* mindsBlockByGC */);
mBinaryDictionary.addBigramWords(word0, word1, frequency, timestamp);
}
});
}
/**
* Dynamically remove a word bigram in the dictionary.
*/
protected void removeBigramDynamically(final String word0, final String word1) {
if (!mIsUpdatable) {
Log.w(TAG, "removeBigramDynamically is called for non-updatable dictionary: "
+ mDictName);
return;
}
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
runGCIfRequiredInternalLocked(true /* mindsBlockByGC */);
mBinaryDictionary.removeBigramWords(word0, word1);
}
});
}
public interface AddMultipleDictionaryEntriesCallback {
public void onFinished();
}
/**
* Dynamically add multiple entries to the dictionary.
*/
protected void addMultipleDictionaryEntriesDynamically(
final ArrayList<LanguageModelParam> languageModelParams,
final AddMultipleDictionaryEntriesCallback callback) {
if (!mIsUpdatable) {
Log.w(TAG, "addMultipleDictionaryEntriesDynamically is called for non-updatable " +
"dictionary: " + mDictName);
return;
}
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
final boolean locked = setProcessingLargeTaskIfNot();
try {
mBinaryDictionary.addMultipleDictionaryEntries(
languageModelParams.toArray(
new LanguageModelParam[languageModelParams.size()]));
} finally {
if (callback != null) {
callback.onFinished();
}
if (locked) {
mDictNameDictionaryUpdateController.mProcessingLargeTask.set(false);
}
}
}
});
}
@Override
public ArrayList<SuggestedWordInfo> getSuggestionsWithSessionId(final WordComposer composer,
final String prevWord, final ProximityInfo proximityInfo,
final boolean blockOffensiveWords, final int[] additionalFeaturesOptions,
final int sessionId) {
reloadDictionaryIfRequired();
if (processingLargeTask()) {
return null;
}
final AsyncResultHolder<ArrayList<SuggestedWordInfo>> holder =
new AsyncResultHolder<ArrayList<SuggestedWordInfo>>();
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
if (mBinaryDictionary == null) {
holder.set(null);
return;
}
final ArrayList<SuggestedWordInfo> binarySuggestion =
mBinaryDictionary.getSuggestionsWithSessionId(composer, prevWord,
proximityInfo, blockOffensiveWords, additionalFeaturesOptions,
sessionId);
holder.set(binarySuggestion);
}
});
return holder.get(null, TIMEOUT_FOR_READ_OPS_IN_MILLISECONDS);
}
@Override
public ArrayList<SuggestedWordInfo> getSuggestions(final WordComposer composer,
final String prevWord, final ProximityInfo proximityInfo,
final boolean blockOffensiveWords, final int[] additionalFeaturesOptions) {
return getSuggestionsWithSessionId(composer, prevWord, proximityInfo, blockOffensiveWords,
additionalFeaturesOptions, 0 /* sessionId */);
}
@Override
public boolean isValidWord(final String word) {
reloadDictionaryIfRequired();
return isValidWordInner(word);
}
protected boolean isValidWordInner(final String word) {
if (processingLargeTask()) {
return false;
}
final AsyncResultHolder<Boolean> holder = new AsyncResultHolder<Boolean>();
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
holder.set(isValidWordLocked(word));
}
});
return holder.get(false, TIMEOUT_FOR_READ_OPS_IN_MILLISECONDS);
}
protected boolean isValidWordLocked(final String word) {
if (mBinaryDictionary == null) return false;
return mBinaryDictionary.isValidWord(word);
}
protected boolean isValidBigramLocked(final String word1, final String word2) {
if (mBinaryDictionary == null) return false;
return mBinaryDictionary.isValidBigram(word1, word2);
}
/**
* Load the current binary dictionary from internal storage in a background thread. If no binary
* dictionary exists, this method will generate one.
*/
protected void loadDictionary() {
mPerInstanceDictionaryUpdateController.mLastUpdateRequestTime = System.currentTimeMillis();
reloadDictionaryIfRequired();
}
/**
* Loads the current binary dictionary from internal storage. Assumes the dictionary file
* exists.
*/
private void loadBinaryDictionary() {
if (DEBUG) {
Log.d(TAG, "Loading binary dictionary: " + mDictName + " request="
+ mDictNameDictionaryUpdateController.mLastUpdateRequestTime + " update="
+ mDictNameDictionaryUpdateController.mLastUpdateTime);
}
if (DBG_STRESS_TEST) {
// Test if this class does not cause problems when it takes long time to load binary
// dictionary.
try {
Log.w(TAG, "Start stress in loading: " + mDictName);
Thread.sleep(15000);
Log.w(TAG, "End stress in loading");
} catch (InterruptedException e) {
}
}
final File file = getDictFile();
final String filename = file.getAbsolutePath();
final long length = file.length();
// Build the new binary dictionary
final BinaryDictionary newBinaryDictionary = new BinaryDictionary(filename, 0 /* offset */,
length, true /* useFullEditDistance */, null, mDictType, mIsUpdatable);
// Ensure all threads accessing the current dictionary have finished before
// swapping in the new one.
// TODO: Ensure multi-thread assignment of mBinaryDictionary.
final BinaryDictionary oldBinaryDictionary = mBinaryDictionary;
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
mBinaryDictionary = newBinaryDictionary;
if (oldBinaryDictionary != null) {
oldBinaryDictionary.close();
}
}
});
}
/**
* Abstract method for checking if it is required to reload the dictionary before writing
* a binary dictionary.
*/
abstract protected boolean needsToReloadBeforeWriting();
/**
* Writes a new binary dictionary based on the contents of the fusion dictionary.
*/
private void writeBinaryDictionary() {
if (DEBUG) {
Log.d(TAG, "Generating binary dictionary: " + mDictName + " request="
+ mDictNameDictionaryUpdateController.mLastUpdateRequestTime + " update="
+ mDictNameDictionaryUpdateController.mLastUpdateTime);
}
if (needsToReloadBeforeWriting()) {
mDictionaryWriter.clear();
loadDictionaryAsync();
mDictionaryWriter.write(getDictFile(), getHeaderAttributeMap());
} else {
if (mBinaryDictionary == null || !isValidDictionary()
// TODO: remove the check below
|| !matchesExpectedBinaryDictFormatVersionForThisType(
mBinaryDictionary.getFormatVersion())) {
final File file = getDictFile();
if (file.exists() && !FileUtils.deleteRecursively(file)) {
Log.e(TAG, "Can't remove a file: " + file.getName());
}
BinaryDictionary.createEmptyDictFile(file.getAbsolutePath(),
DICTIONARY_FORMAT_VERSION, getHeaderAttributeMap());
} else {
if (mBinaryDictionary.needsToRunGC(false /* mindsBlockByGC */)) {
mBinaryDictionary.flushWithGC();
} else {
mBinaryDictionary.flush();
}
}
}
}
/**
* Marks that the dictionary is out of date and requires a reload.
*
* @param requiresRebuild Indicates that the source dictionary content has changed and a rebuild
* of the binary file is required. If not true, the next reload process will only read
* the current binary dictionary from file.
*/
protected void setRequiresReload(final boolean requiresRebuild) {
final long time = System.currentTimeMillis();
mPerInstanceDictionaryUpdateController.mLastUpdateRequestTime = time;
mDictNameDictionaryUpdateController.mLastUpdateRequestTime = time;
if (DEBUG) {
Log.d(TAG, "Reload request: " + mDictName + ": request=" + time + " update="
+ mDictNameDictionaryUpdateController.mLastUpdateTime);
}
}
/**
* Reloads the dictionary if required.
*/
public final void reloadDictionaryIfRequired() {
if (!isReloadRequired()) return;
if (setProcessingLargeTaskIfNot()) {
reloadDictionary();
}
}
/**
* Returns whether a dictionary reload is required.
*/
private boolean isReloadRequired() {
return mBinaryDictionary == null || mPerInstanceDictionaryUpdateController.isOutOfDate();
}
private boolean processingLargeTask() {
return mDictNameDictionaryUpdateController.mProcessingLargeTask.get();
}
// Returns whether the dictionary is being used for a large task. If true, we should not use
// this dictionary for latency sensitive operations.
private boolean setProcessingLargeTaskIfNot() {
return mDictNameDictionaryUpdateController.mProcessingLargeTask.compareAndSet(
false /* expect */ , true /* update */);
}
/**
* Reloads the dictionary. Access is controlled on a per dictionary file basis and supports
* concurrent calls from multiple instances that share the same dictionary file.
*/
private final void reloadDictionary() {
// Ensure that only one thread attempts to read or write to the shared binary dictionary
// file at the same time.
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
try {
final long time = System.currentTimeMillis();
final boolean dictionaryFileExists = dictionaryFileExists();
if (mDictNameDictionaryUpdateController.isOutOfDate()
|| !dictionaryFileExists) {
// If the shared dictionary file does not exist or is out of date, the
// first instance that acquires the lock will generate a new one.
if (hasContentChanged() || !dictionaryFileExists) {
// If the source content has changed or the dictionary does not exist,
// rebuild the binary dictionary. Empty dictionaries are supported (in
// the case where loadDictionaryAsync() adds nothing) in order to
// provide a uniform framework.
mDictNameDictionaryUpdateController.mLastUpdateTime = time;
writeBinaryDictionary();
loadBinaryDictionary();
} else {
// If not, the reload request was unnecessary so revert
// LastUpdateRequestTime to LastUpdateTime.
mDictNameDictionaryUpdateController.mLastUpdateRequestTime =
mDictNameDictionaryUpdateController.mLastUpdateTime;
}
} else if (mBinaryDictionary == null ||
mPerInstanceDictionaryUpdateController.mLastUpdateTime
< mDictNameDictionaryUpdateController.mLastUpdateTime) {
// Otherwise, if the local dictionary is older than the shared dictionary,
// load the shared dictionary.
loadBinaryDictionary();
}
// If we just loaded the binary dictionary, then mBinaryDictionary is not
// up-to-date yet so it's useless to test it right away. Schedule the check
// for right after it's loaded instead.
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
if (mBinaryDictionary != null && !(isValidDictionary()
// TODO: remove the check below
&& matchesExpectedBinaryDictFormatVersionForThisType(
mBinaryDictionary.getFormatVersion()))) {
// Binary dictionary or its format version is not valid. Regenerate
// the dictionary file. writeBinaryDictionary will remove the
// existing files if appropriate.
mDictNameDictionaryUpdateController.mLastUpdateTime = time;
writeBinaryDictionary();
loadBinaryDictionary();
}
mPerInstanceDictionaryUpdateController.mLastUpdateTime = time;
}
});
} finally {
mDictNameDictionaryUpdateController.mProcessingLargeTask.set(false);
}
}
});
}
// TODO: cache the file's existence so that we avoid doing a disk access each time.
private boolean dictionaryFileExists() {
return getDictFile().exists();
}
/**
* Generate binary dictionary using DictionaryWriter.
*/
protected void asyncFlushBinaryDictionary() {
final Runnable newTask = new Runnable() {
@Override
public void run() {
writeBinaryDictionary();
}
};
final Runnable oldTask = mUnfinishedFlushingTask.getAndSet(newTask);
getExecutor(mDictName).replaceAndExecute(oldTask, newTask);
}
/**
* For tracking whether the dictionary is out of date and the dictionary is used in a large
* task. Can be shared across multiple dictionary instances that access the same filename.
*/
private static class DictionaryUpdateController {
public volatile long mLastUpdateTime = 0;
public volatile long mLastUpdateRequestTime = 0;
public volatile AtomicBoolean mProcessingLargeTask = new AtomicBoolean();
public boolean isOutOfDate() {
return (mLastUpdateRequestTime > mLastUpdateTime);
}
}
// TODO: Implement BinaryDictionary.isInDictionary().
@UsedForTesting
public boolean isInDictionaryForTests(final String word) {
final AsyncResultHolder<Boolean> holder = new AsyncResultHolder<Boolean>();
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
if (mDictType == Dictionary.TYPE_USER_HISTORY) {
holder.set(mBinaryDictionary.isValidWord(word));
}
}
});
return holder.get(false, TIMEOUT_FOR_READ_OPS_IN_MILLISECONDS);
}
@UsedForTesting
public void waitAllTasksForTests() {
final CountDownLatch countDownLatch = new CountDownLatch(1);
getExecutor(mDictName).execute(new Runnable() {
@Override
public void run() {
countDownLatch.countDown();
}
});
try {
countDownLatch.await();
} catch (InterruptedException e) {
Log.e(TAG, "Interrupted while waiting for finishing dictionary operations.", e);
}
}
@UsedForTesting
protected void runAfterGcForDebug(final Runnable r) {
getExecutor(mDictName).executePrioritized(new Runnable() {
@Override
public void run() {
try {
mBinaryDictionary.flushWithGC();
r.run();
} finally {
mDictNameDictionaryUpdateController.mProcessingLargeTask.set(false);
}
}
});
}
}