LatinIME/tests/src/com/android/inputmethod/latin/BinaryDictionaryDecayingTests.java

577 lines
26 KiB
Java
Raw Normal View History

/*
* 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.inputmethod.latin;
import android.test.AndroidTestCase;
import android.test.suitebuilder.annotation.LargeTest;
import android.util.Pair;
import com.android.inputmethod.latin.makedict.CodePointUtils;
import com.android.inputmethod.latin.makedict.DictDecoder;
import com.android.inputmethod.latin.makedict.FormatSpec;
import com.android.inputmethod.latin.makedict.FusionDictionary;
import com.android.inputmethod.latin.makedict.FusionDictionary.PtNode;
import com.android.inputmethod.latin.makedict.UnsupportedFormatException;
import com.android.inputmethod.latin.utils.FileUtils;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Locale;
import java.util.Map;
import java.util.Random;
import java.util.concurrent.TimeUnit;
@LargeTest
public class BinaryDictionaryDecayingTests extends AndroidTestCase {
private static final String TEST_DICT_FILE_EXTENSION = ".testDict";
private static final String TEST_LOCALE = "test";
private static final int DUMMY_PROBABILITY = 0;
private int mCurrentTime = 0;
@Override
protected void setUp() throws Exception {
super.setUp();
mCurrentTime = 0;
}
@Override
protected void tearDown() throws Exception {
super.tearDown();
stopTestModeInNativeCode();
}
private void addUnigramWord(final BinaryDictionary binaryDictionary, final String word,
final int probability) {
binaryDictionary.addUnigramWord(word, probability, "" /* shortcutTarget */,
BinaryDictionary.NOT_A_PROBABILITY /* shortcutProbability */,
false /* isNotAWord */, false /* isBlacklisted */,
mCurrentTime /* timestamp */);
}
private void addBigramWords(final BinaryDictionary binaryDictionary, final String word0,
final String word1, final int probability) {
binaryDictionary.addBigramWords(word0, word1, probability,
mCurrentTime /* timestamp */);
}
private void forcePassingShortTime(final BinaryDictionary binaryDictionary) {
// 4 days.
final int timeToElapse = (int)TimeUnit.SECONDS.convert(4, TimeUnit.DAYS);
mCurrentTime += timeToElapse;
setCurrentTimeForTestMode(mCurrentTime);
binaryDictionary.flushWithGC();
}
private void forcePassingLongTime(final BinaryDictionary binaryDictionary) {
// 60 days.
final int timeToElapse = (int)TimeUnit.SECONDS.convert(60, TimeUnit.DAYS);
mCurrentTime += timeToElapse;
setCurrentTimeForTestMode(mCurrentTime);
binaryDictionary.flushWithGC();
}
private File createEmptyDictionaryAndGetFile(final String dictId,
final int formatVersion) throws IOException {
if (formatVersion == FormatSpec.VERSION4) {
return createEmptyVer4DictionaryAndGetFile(dictId);
} else {
throw new IOException("Dictionary format version " + formatVersion
+ " is not supported.");
}
}
private File createEmptyVer4DictionaryAndGetFile(final String dictId) throws IOException {
final File file = File.createTempFile(dictId, TEST_DICT_FILE_EXTENSION,
getContext().getCacheDir());
FileUtils.deleteRecursively(file);
Map<String, String> attributeMap = new HashMap<String, String>();
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_ID_KEY, dictId);
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_LOCALE_KEY, dictId);
attributeMap.put(FormatSpec.FileHeader.DICTIONARY_VERSION_KEY,
String.valueOf(TimeUnit.MILLISECONDS.toSeconds(System.currentTimeMillis())));
attributeMap.put(FormatSpec.FileHeader.USES_FORGETTING_CURVE_KEY,
FormatSpec.FileHeader.ATTRIBUTE_VALUE_TRUE);
attributeMap.put(FormatSpec.FileHeader.HAS_HISTORICAL_INFO_KEY,
FormatSpec.FileHeader.ATTRIBUTE_VALUE_TRUE);
if (BinaryDictionary.createEmptyDictFile(file.getAbsolutePath(),
FormatSpec.VERSION4, attributeMap)) {
return file;
} else {
throw new IOException("Empty dictionary " + file.getAbsolutePath()
+ " cannot be created.");
}
}
private static int setCurrentTimeForTestMode(final int currentTime) {
return BinaryDictionary.setCurrentTimeForTest(currentTime);
}
private static int stopTestModeInNativeCode() {
return BinaryDictionary.setCurrentTimeForTest(-1);
}
public void testReadDictInJavaSide() {
testReadDictInJavaSide(FormatSpec.VERSION4);
}
private void testReadDictInJavaSide(final int formatVersion) {
setCurrentTimeForTestMode(mCurrentTime);
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "ab", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "aaa", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "aaa", DUMMY_PROBABILITY);
binaryDictionary.flushWithGC();
binaryDictionary.close();
final DictDecoder dictDecoder = FormatSpec.getDictDecoder(dictFile);
try {
final FusionDictionary dict = dictDecoder.readDictionaryBinary(null,
false /* deleteDictIfBroken */);
PtNode ptNode = FusionDictionary.findWordInTree(dict.mRootNodeArray, "a");
assertNotNull(ptNode);
assertTrue(ptNode.isTerminal());
assertNotNull(ptNode.getBigram("aaa"));
ptNode = FusionDictionary.findWordInTree(dict.mRootNodeArray, "ab");
assertNotNull(ptNode);
assertTrue(ptNode.isTerminal());
ptNode = FusionDictionary.findWordInTree(dict.mRootNodeArray, "aaa");
assertNotNull(ptNode);
assertTrue(ptNode.isTerminal());
} catch (IOException e) {
fail("IOException while reading dictionary: " + e);
} catch (UnsupportedFormatException e) {
fail("Unsupported format: " + e);
}
dictFile.delete();
}
public void testControlCurrentTime() {
testControlCurrentTime(FormatSpec.VERSION4);
}
private void testControlCurrentTime(final int formatVersion) {
final int TEST_COUNT = 1000;
final long seed = System.currentTimeMillis();
final Random random = new Random(seed);
final int startTime = stopTestModeInNativeCode();
for (int i = 0; i < TEST_COUNT; i++) {
final int currentTime = random.nextInt(Integer.MAX_VALUE);
final int currentTimeInNativeCode = setCurrentTimeForTestMode(currentTime);
assertEquals(currentTime, currentTimeInNativeCode);
}
final int endTime = stopTestModeInNativeCode();
final int MAX_ALLOWED_ELAPSED_TIME = 10;
assertTrue(startTime <= endTime && endTime <= startTime + MAX_ALLOWED_ELAPSED_TIME);
}
public void testAddValidAndInvalidWords() {
testAddValidAndInvalidWords(FormatSpec.VERSION4);
}
private void testAddValidAndInvalidWords(final int formatVersion) {
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
addUnigramWord(binaryDictionary, "a", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "a", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "a", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "a", Dictionary.NOT_A_PROBABILITY);
assertTrue(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidWord("b"));
addBigramWords(binaryDictionary, "a", "b", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidBigram("a", "b"));
addBigramWords(binaryDictionary, "a", "b", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidBigram("a", "b"));
addBigramWords(binaryDictionary, "a", "b", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidBigram("a", "b"));
addBigramWords(binaryDictionary, "a", "b", Dictionary.NOT_A_PROBABILITY);
assertTrue(binaryDictionary.isValidBigram("a", "b"));
addUnigramWord(binaryDictionary, "c", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "c", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidBigram("a", "c"));
// Add bigrams of not valid unigrams.
addBigramWords(binaryDictionary, "x", "y", Dictionary.NOT_A_PROBABILITY);
assertFalse(binaryDictionary.isValidBigram("x", "y"));
addBigramWords(binaryDictionary, "x", "y", DUMMY_PROBABILITY);
assertFalse(binaryDictionary.isValidBigram("x", "y"));
binaryDictionary.close();
dictFile.delete();
}
public void testDecayingProbability() {
testDecayingProbability(FormatSpec.VERSION4);
}
private void testDecayingProbability(final int formatVersion) {
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidWord("a"));
forcePassingShortTime(binaryDictionary);
assertFalse(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidWord("a"));
forcePassingShortTime(binaryDictionary);
assertTrue(binaryDictionary.isValidWord("a"));
forcePassingLongTime(binaryDictionary);
assertFalse(binaryDictionary.isValidWord("a"));
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidBigram("a", "b"));
forcePassingShortTime(binaryDictionary);
assertFalse(binaryDictionary.isValidBigram("a", "b"));
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "a", DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, "b", DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, "a", "b", DUMMY_PROBABILITY);
assertTrue(binaryDictionary.isValidBigram("a", "b"));
forcePassingShortTime(binaryDictionary);
assertTrue(binaryDictionary.isValidBigram("a", "b"));
forcePassingLongTime(binaryDictionary);
assertFalse(binaryDictionary.isValidBigram("a", "b"));
binaryDictionary.close();
dictFile.delete();
}
public void testAddManyUnigramsToDecayingDict() {
testAddManyUnigramsToDecayingDict(FormatSpec.VERSION4);
}
private void testAddManyUnigramsToDecayingDict(final int formatVersion) {
final int unigramCount = 30000;
final int unigramTypedCount = 100000;
final int codePointSetSize = 50;
final long seed = System.currentTimeMillis();
final Random random = new Random(seed);
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
setCurrentTimeForTestMode(mCurrentTime);
final int[] codePointSet = CodePointUtils.generateCodePointSet(codePointSetSize, random);
final ArrayList<String> words = new ArrayList<String>();
for (int i = 0; i < unigramCount; i++) {
final String word = CodePointUtils.generateWord(random, codePointSet);
words.add(word);
}
final int maxUnigramCount = Integer.parseInt(
binaryDictionary.getPropertyForTest(BinaryDictionary.MAX_UNIGRAM_COUNT_QUERY));
for (int i = 0; i < unigramTypedCount; i++) {
final String word = words.get(random.nextInt(words.size()));
addUnigramWord(binaryDictionary, word, DUMMY_PROBABILITY);
if (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
final int unigramCountBeforeGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY));
while (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
forcePassingShortTime(binaryDictionary);
}
final int unigramCountAfterGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY));
assertTrue(unigramCountBeforeGC > unigramCountAfterGC);
}
}
assertTrue(Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY)) > 0);
assertTrue(Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY)) <= maxUnigramCount);
forcePassingLongTime(binaryDictionary);
assertEquals(0, Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY)));
}
public void testOverflowUnigrams() {
testOverflowUnigrams(FormatSpec.VERSION4);
}
private void testOverflowUnigrams(final int formatVersion) {
final int unigramCount = 20000;
final int eachUnigramTypedCount = 5;
final int strongUnigramTypedCount = 20;
final int weakUnigramTypedCount = 1;
final int codePointSetSize = 50;
final long seed = System.currentTimeMillis();
final Random random = new Random(seed);
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
setCurrentTimeForTestMode(mCurrentTime);
final int[] codePointSet = CodePointUtils.generateCodePointSet(codePointSetSize, random);
final String strong = "strong";
final String weak = "weak";
for (int j = 0; j < strongUnigramTypedCount; j++) {
addUnigramWord(binaryDictionary, strong, DUMMY_PROBABILITY);
}
for (int j = 0; j < weakUnigramTypedCount; j++) {
addUnigramWord(binaryDictionary, weak, DUMMY_PROBABILITY);
}
assertTrue(binaryDictionary.isValidWord(strong));
assertTrue(binaryDictionary.isValidWord(weak));
for (int i = 0; i < unigramCount; i++) {
final String word = CodePointUtils.generateWord(random, codePointSet);
for (int j = 0; j < eachUnigramTypedCount; j++) {
addUnigramWord(binaryDictionary, word, DUMMY_PROBABILITY);
}
if (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
final int unigramCountBeforeGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY));
assertTrue(binaryDictionary.isValidWord(strong));
assertTrue(binaryDictionary.isValidWord(weak));
binaryDictionary.flushWithGC();
final int unigramCountAfterGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.UNIGRAM_COUNT_QUERY));
assertTrue(unigramCountBeforeGC > unigramCountAfterGC);
assertFalse(binaryDictionary.isValidWord(weak));
assertTrue(binaryDictionary.isValidWord(strong));
break;
}
}
}
public void testAddManyBigramsToDecayingDict() {
testAddManyBigramsToDecayingDict(FormatSpec.VERSION4);
}
private void testAddManyBigramsToDecayingDict(final int formatVersion) {
final int unigramCount = 5000;
final int bigramCount = 30000;
final int bigramTypedCount = 100000;
final int codePointSetSize = 50;
final long seed = System.currentTimeMillis();
final Random random = new Random(seed);
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
setCurrentTimeForTestMode(mCurrentTime);
final int[] codePointSet = CodePointUtils.generateCodePointSet(codePointSetSize, random);
final ArrayList<String> words = new ArrayList<String>();
final ArrayList<Pair<String, String>> bigrams = new ArrayList<Pair<String, String>>();
for (int i = 0; i < unigramCount; ++i) {
final String word = CodePointUtils.generateWord(random, codePointSet);
words.add(word);
}
for (int i = 0; i < bigramCount; ++i) {
final int word0Index = random.nextInt(words.size());
int word1Index = random.nextInt(words.size() - 1);
if (word1Index >= word0Index) {
word1Index += 1;
}
final String word0 = words.get(word0Index);
final String word1 = words.get(word1Index);
final Pair<String, String> bigram = new Pair<String, String>(word0, word1);
bigrams.add(bigram);
}
final int maxBigramCount = Integer.parseInt(
binaryDictionary.getPropertyForTest(BinaryDictionary.MAX_BIGRAM_COUNT_QUERY));
for (int i = 0; i < bigramTypedCount; ++i) {
final Pair<String, String> bigram = bigrams.get(random.nextInt(bigrams.size()));
addUnigramWord(binaryDictionary, bigram.first, DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, bigram.second, DUMMY_PROBABILITY);
addBigramWords(binaryDictionary, bigram.first, bigram.second, DUMMY_PROBABILITY);
if (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
final int bigramCountBeforeGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY));
while (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
forcePassingShortTime(binaryDictionary);
}
final int bigramCountAfterGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY));
assertTrue(bigramCountBeforeGC > bigramCountAfterGC);
}
}
assertTrue(Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY)) > 0);
assertTrue(Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY)) <= maxBigramCount);
forcePassingLongTime(binaryDictionary);
assertEquals(0, Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY)));
}
public void testOverflowBigrams() {
testOverflowBigrams(FormatSpec.VERSION4);
}
private void testOverflowBigrams(final int formatVersion) {
final int bigramCount = 20000;
final int unigramCount = 1000;
final int unigramTypedCount = 20;
final int eachBigramTypedCount = 5;
final int strongBigramTypedCount = 20;
final int weakBigramTypedCount = 1;
final int codePointSetSize = 50;
final long seed = System.currentTimeMillis();
final Random random = new Random(seed);
File dictFile = null;
try {
dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
} catch (IOException e) {
fail("IOException while writing an initial dictionary : " + e);
}
BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
setCurrentTimeForTestMode(mCurrentTime);
final int[] codePointSet = CodePointUtils.generateCodePointSet(codePointSetSize, random);
final ArrayList<String> words = new ArrayList<String>();
for (int i = 0; i < unigramCount; i++) {
final String word = CodePointUtils.generateWord(random, codePointSet);
words.add(word);
for (int j = 0; j < unigramTypedCount; j++) {
addUnigramWord(binaryDictionary, word, DUMMY_PROBABILITY);
}
}
final String strong = "strong";
final String weak = "weak";
final String target = "target";
for (int j = 0; j < unigramTypedCount; j++) {
addUnigramWord(binaryDictionary, strong, DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, weak, DUMMY_PROBABILITY);
addUnigramWord(binaryDictionary, target, DUMMY_PROBABILITY);
}
binaryDictionary.flushWithGC();
for (int j = 0; j < strongBigramTypedCount; j++) {
addBigramWords(binaryDictionary, strong, target, DUMMY_PROBABILITY);
}
for (int j = 0; j < weakBigramTypedCount; j++) {
addBigramWords(binaryDictionary, weak, target, DUMMY_PROBABILITY);
}
assertTrue(binaryDictionary.isValidBigram(strong, target));
assertTrue(binaryDictionary.isValidBigram(weak, target));
for (int i = 0; i < bigramCount; i++) {
final int word0Index = random.nextInt(words.size());
final String word0 = words.get(word0Index);
final int index = random.nextInt(words.size() - 1);
final int word1Index = (index >= word0Index) ? index + 1 : index;
final String word1 = words.get(word1Index);
for (int j = 0; j < eachBigramTypedCount; j++) {
addBigramWords(binaryDictionary, word0, word1, DUMMY_PROBABILITY);
}
if (binaryDictionary.needsToRunGC(true /* mindsBlockByGC */)) {
final int bigramCountBeforeGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY));
binaryDictionary.flushWithGC();
final int bigramCountAfterGC =
Integer.parseInt(binaryDictionary.getPropertyForTest(
BinaryDictionary.BIGRAM_COUNT_QUERY));
assertTrue(bigramCountBeforeGC > bigramCountAfterGC);
assertTrue(binaryDictionary.isValidBigram(strong, target));
assertFalse(binaryDictionary.isValidBigram(weak, target));
break;
}
}
}
}