am ffb12e76: Merge "Implement Ver4PatriciaTriePolicy::getNextWordAndNextToken."
* commit 'ffb12e76b88c0e074a2316a10d7ec8857c4b2a39': Implement Ver4PatriciaTriePolicy::getNextWordAndNextToken.main
commit
f882e7378b
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@ -357,7 +357,7 @@ public final class BinaryDictionary extends Dictionary {
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while (len < MAX_WORD_LENGTH && codePoints[len] != 0) {
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++len;
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}
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final String word = new String(mOutputCodePoints, 0, len);
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final String word = new String(codePoints, 0, len);
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return new GetNextWordPropertyResult(getWordProperty(word), nextToken);
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}
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@ -28,6 +28,14 @@ const int DynamicPtReadingHelper::MAX_CHILD_COUNT_TO_AVOID_INFINITE_LOOP = 10000
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const int DynamicPtReadingHelper::MAX_PT_NODE_ARRAY_COUNT_TO_AVOID_INFINITE_LOOP = 100000;
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const size_t DynamicPtReadingHelper::MAX_READING_STATE_STACK_SIZE = MAX_WORD_LENGTH;
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bool DynamicPtReadingHelper::TraversePolicyToGetAllTerminalPtNodePositions::onVisitingPtNode(
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const PtNodeParams *const ptNodeParams) {
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if (ptNodeParams->isTerminal() && !ptNodeParams->isDeleted()) {
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mTerminalPositions->push_back(ptNodeParams->getHeadPos());
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}
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return true;
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}
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// Visits all PtNodes in post-order depth first manner.
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// For example, visits c -> b -> y -> x -> a for the following dictionary:
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// a _ b _ c
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@ -59,6 +59,21 @@ class DynamicPtReadingHelper {
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DISALLOW_COPY_AND_ASSIGN(TraversingEventListener);
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};
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class TraversePolicyToGetAllTerminalPtNodePositions : public TraversingEventListener {
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public:
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TraversePolicyToGetAllTerminalPtNodePositions(std::vector<int> *const terminalPositions)
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: mTerminalPositions(terminalPositions) {}
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bool onAscend() { return true; }
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bool onDescend(const int ptNodeArrayPos) { return true; }
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bool onReadingPtNodeArrayTail() { return true; }
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bool onVisitingPtNode(const PtNodeParams *const ptNodeParams);
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private:
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DISALLOW_IMPLICIT_CONSTRUCTORS(TraversePolicyToGetAllTerminalPtNodePositions);
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std::vector<int> *const mTerminalPositions;
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};
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DynamicPtReadingHelper(const BufferWithExtendableBuffer *const buffer,
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const PtNodeReader *const ptNodeReader)
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: mIsError(false), mReadingState(), mBuffer(buffer),
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@ -392,10 +392,32 @@ const WordProperty Ver4PatriciaTriePolicy::getWordProperty(const int *const code
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historicalInfo->getCount(), &bigrams, &shortcuts);
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}
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int Ver4PatriciaTriePolicy::getNextWordAndNextToken(const int token,
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int *const outCodePoints) {
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// TODO: Implement.
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return 0;
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int Ver4PatriciaTriePolicy::getNextWordAndNextToken(const int token, int *const outCodePoints) {
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if (token == 0) {
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mTerminalPtNodePositionsForIteratingWords.clear();
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DynamicPtReadingHelper::TraversePolicyToGetAllTerminalPtNodePositions traversePolicy(
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&mTerminalPtNodePositionsForIteratingWords);
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DynamicPtReadingHelper readingHelper(mDictBuffer, &mNodeReader);
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readingHelper.initWithPtNodeArrayPos(getRootPosition());
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readingHelper.traverseAllPtNodesInPostorderDepthFirstManner(&traversePolicy);
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}
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const int terminalPtNodePositionsVectorSize =
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static_cast<int>(mTerminalPtNodePositionsForIteratingWords.size());
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if (token < 0 || token >= terminalPtNodePositionsVectorSize) {
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AKLOGE("Given token %d is invalid.", token);
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return 0;
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}
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const int terminalPtNodePos = mTerminalPtNodePositionsForIteratingWords[token];
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int unigramProbability = NOT_A_PROBABILITY;
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getCodePointsAndProbabilityAndReturnCodePointCount(terminalPtNodePos, MAX_WORD_LENGTH,
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outCodePoints, &unigramProbability);
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const int nextToken = token + 1;
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if (nextToken >= terminalPtNodePositionsVectorSize) {
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// All words have been iterated.
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mTerminalPtNodePositionsForIteratingWords.clear();
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return 0;
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}
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return nextToken;
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}
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} // namespace latinime
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@ -17,6 +17,8 @@
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#ifndef LATINIME_VER4_PATRICIA_TRIE_POLICY_H
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#define LATINIME_VER4_PATRICIA_TRIE_POLICY_H
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#include <vector>
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#include "defines.h"
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#include "suggest/core/policy/dictionary_structure_with_buffer_policy.h"
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#include "suggest/policyimpl/dictionary/bigram/ver4_bigram_list_policy.h"
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@ -50,7 +52,8 @@ class Ver4PatriciaTriePolicy : public DictionaryStructureWithBufferPolicy {
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mUpdatingHelper(mDictBuffer, &mNodeReader, &mNodeWriter),
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mWritingHelper(mBuffers.get()),
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mUnigramCount(mHeaderPolicy->getUnigramCount()),
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mBigramCount(mHeaderPolicy->getBigramCount()) {};
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mBigramCount(mHeaderPolicy->getBigramCount()),
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mTerminalPtNodePositionsForIteratingWords() {};
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AK_FORCE_INLINE int getRootPosition() const {
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return 0;
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@ -134,6 +137,7 @@ class Ver4PatriciaTriePolicy : public DictionaryStructureWithBufferPolicy {
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Ver4PatriciaTrieWritingHelper mWritingHelper;
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int mUnigramCount;
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int mBigramCount;
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std::vector<int> mTerminalPtNodePositionsForIteratingWords;
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};
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} // namespace latinime
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#endif // LATINIME_VER4_PATRICIA_TRIE_POLICY_H
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@ -971,6 +971,99 @@ public class BinaryDictionaryTests extends AndroidTestCase {
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}
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}
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public void testIterateAllWords() {
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testIterateAllWords(FormatSpec.VERSION4);
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}
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private void testIterateAllWords(final int formatVersion) {
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final long seed = System.currentTimeMillis();
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final Random random = new Random(seed);
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final int UNIGRAM_COUNT = 1000;
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final int BIGRAM_COUNT = 1000;
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final int codePointSetSize = 20;
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final int[] codePointSet = CodePointUtils.generateCodePointSet(codePointSetSize, random);
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File dictFile = null;
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try {
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dictFile = createEmptyDictionaryAndGetFile("TestBinaryDictionary", formatVersion);
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} catch (IOException e) {
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fail("IOException while writing an initial dictionary : " + e);
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}
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final BinaryDictionary binaryDictionary = new BinaryDictionary(dictFile.getAbsolutePath(),
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0 /* offset */, dictFile.length(), true /* useFullEditDistance */,
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Locale.getDefault(), TEST_LOCALE, true /* isUpdatable */);
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final WordProperty invalidWordProperty = binaryDictionary.getWordProperty("dummyWord");
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assertFalse(invalidWordProperty.isValid());
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final ArrayList<String> words = new ArrayList<String>();
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final HashMap<String, Integer> wordProbabilitiesToCheckLater =
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new HashMap<String, Integer>();
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final HashMap<String, HashSet<String>> bigrams = new HashMap<String, HashSet<String>>();
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final HashMap<Pair<String, String>, Integer> bigramProbabilitiesToCheckLater =
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new HashMap<Pair<String, String>, Integer>();
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for (int i = 0; i < UNIGRAM_COUNT; i++) {
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final String word = CodePointUtils.generateWord(random, codePointSet);
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final int unigramProbability = random.nextInt(0xFF);
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addUnigramWord(binaryDictionary, word, unigramProbability);
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if (binaryDictionary.needsToRunGC(false /* mindsBlockByGC */)) {
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binaryDictionary.flushWithGC();
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}
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words.add(word);
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wordProbabilitiesToCheckLater.put(word, unigramProbability);
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}
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for (int i = 0; i < BIGRAM_COUNT; i++) {
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final int word0Index = random.nextInt(wordProbabilitiesToCheckLater.size());
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final int word1Index = random.nextInt(wordProbabilitiesToCheckLater.size());
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if (word0Index == word1Index) {
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continue;
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}
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final String word0 = words.get(word0Index);
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final String word1 = words.get(word1Index);
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final int bigramProbability = random.nextInt(0xF);
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binaryDictionary.addBigramWords(word0, word1, bigramProbability,
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BinaryDictionary.NOT_A_VALID_TIMESTAMP);
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if (binaryDictionary.needsToRunGC(false /* mindsBlockByGC */)) {
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binaryDictionary.flushWithGC();
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}
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if (!bigrams.containsKey(word0)) {
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final HashSet<String> bigramWord1s = new HashSet<String>();
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bigrams.put(word0, bigramWord1s);
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}
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bigrams.get(word0).add(word1);
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bigramProbabilitiesToCheckLater.put(
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new Pair<String, String>(word0, word1), bigramProbability);
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}
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final HashSet<String> wordSet = new HashSet<String>(words);
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final HashSet<Pair<String, String>> bigramSet =
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new HashSet<Pair<String,String>>(bigramProbabilitiesToCheckLater.keySet());
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int token = 0;
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do {
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final BinaryDictionary.GetNextWordPropertyResult result =
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binaryDictionary.getNextWordProperty(token);
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final WordProperty wordProperty = result.mWordProperty;
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final String word0 = wordProperty.mCodePoints;
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assertEquals((int)wordProbabilitiesToCheckLater.get(word0),
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wordProperty.mProbabilityInfo.mProbability);
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wordSet.remove(word0);
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final HashSet<String> bigramWord1s = bigrams.get(word0);
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for (int j = 0; j < wordProperty.mBigramTargets.size(); j++) {
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final String word1 = wordProperty.mBigramTargets.get(j).mWord;
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assertTrue(bigramWord1s.contains(word1));
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final int probability = wordProperty.mBigramTargets.get(j).mFrequency;
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final Pair<String, String> bigram = new Pair<String, String>(word0, word1);
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assertEquals((int)bigramProbabilitiesToCheckLater.get(bigram), probability);
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bigramSet.remove(bigram);
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}
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token = result.mNextToken;
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} while (token != 0);
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assertTrue(wordSet.isEmpty());
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assertTrue(bigramSet.isEmpty());
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}
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public void testAddShortcuts() {
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testAddShortcuts(FormatSpec.VERSION4);
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}
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