Merge "Fix issues with single-char word. Some refactorings as well."
This commit is contained in:
commit
d968a09085
1 changed files with 116 additions and 114 deletions
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@ -41,18 +41,17 @@ import javax.xml.parsers.SAXParserFactory;
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* in the data. There is no need to increase the version when only the words in the data changes.
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*/
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public class MakeBinaryDictionary {
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private static final int VERSION_NUM = 200;
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public static final int ALPHA_SIZE = 256;
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public static final String TAG_WORD = "w";
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public static final String ATTR_FREQ = "f";
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private static final String TAG_WORD = "w";
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private static final String ATTR_FREQ = "f";
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private static final int FLAG_ADDRESS_MASK = 0x400000;
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private static final int FLAG_TERMINAL_MASK = 0x800000;
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private static final int ADDRESS_MASK = 0x3FFFFF;
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private static final int INITIAL_STRING_BUILDER_CAPACITY = 48;
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/**
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* Unit for this variable is in bytes
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* If destination file name is main.dict and file limit causes dictionary to be separated into
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@ -61,15 +60,15 @@ public class MakeBinaryDictionary {
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private static int sOutputFileSize;
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private static boolean sSplitOutput;
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public static final CharNode EMPTY_NODE = new CharNode();
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private static final CharNode EMPTY_NODE = new CharNode();
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List<CharNode> roots;
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Map<String, Integer> mDictionary;
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int mWordCount;
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private List<CharNode> mRoots;
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private Map<String, Integer> mDictionary;
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private int mWordCount;
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BigramDictionary bigramDict;
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private BigramDictionary mBigramDict;
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static class CharNode {
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private static class CharNode {
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char data;
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int freq;
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boolean terminal;
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@ -81,7 +80,7 @@ public class MakeBinaryDictionary {
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}
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}
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public static void usage() {
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private static void usage() {
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System.err.println("Usage: makedict -s <src_dict.xml> [-b <src_bigram.xml>] "
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+ "-d <dest.dict> [--size filesize]");
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System.exit(-1);
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@ -118,36 +117,37 @@ public class MakeBinaryDictionary {
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}
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}
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public MakeBinaryDictionary(String srcFilename, String bigramSrcFilename, String destFilename){
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private MakeBinaryDictionary(String srcFilename, String bigramSrcFilename,
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String destFilename) {
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System.out.println("Generating dictionary version " + VERSION_NUM);
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bigramDict = new BigramDictionary(bigramSrcFilename, (bigramSrcFilename != null));
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mBigramDict = new BigramDictionary(bigramSrcFilename, (bigramSrcFilename != null));
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populateDictionary(srcFilename);
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writeToDict(destFilename);
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// Enable the code below to verify that the generated tree is traversable
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// and bigram data is stored correctly.
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if (false) {
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bigramDict.reverseLookupAll(mDictionary, dict);
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mBigramDict.reverseLookupAll(mDictionary, mDict);
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traverseDict(2, new char[32], 0);
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}
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}
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private void populateDictionary(String filename) {
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roots = new ArrayList<CharNode>();
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mRoots = new ArrayList<CharNode>();
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mDictionary = new HashMap<String, Integer>();
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try {
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SAXParser parser = SAXParserFactory.newInstance().newSAXParser();
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parser.parse(new File(filename), new DefaultHandler() {
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boolean inWord;
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int freq;
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StringBuilder wordBuilder = new StringBuilder(48);
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StringBuilder wordBuilder = new StringBuilder(INITIAL_STRING_BUILDER_CAPACITY);
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@Override
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public void startElement(String uri, String localName,
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String qName, Attributes attributes) {
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if (qName.equals("w")) {
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if (qName.equals(TAG_WORD)) {
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inWord = true;
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freq = Integer.parseInt(attributes.getValue(0));
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freq = Integer.parseInt(attributes.getValue(ATTR_FREQ));
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wordBuilder.setLength(0);
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}
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}
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@ -162,7 +162,7 @@ public class MakeBinaryDictionary {
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@Override
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public void endElement(String uri, String localName,
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String qName) {
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if (qName.equals("w")) {
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if (qName.equals(TAG_WORD)) {
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if (wordBuilder.length() >= 1) {
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addWordTop(wordBuilder.toString(), freq);
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mWordCount++;
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@ -178,7 +178,7 @@ public class MakeBinaryDictionary {
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System.out.println("Nodes = " + CharNode.sNodes);
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}
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private int indexOf(List<CharNode> children, char c) {
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private static int indexOf(List<CharNode> children, char c) {
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if (children == null) {
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return -1;
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}
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@ -190,27 +190,30 @@ public class MakeBinaryDictionary {
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return -1;
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}
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private void addWordTop(String word, int occur) {
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if (occur > 255) occur = 255;
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private void addWordTop(String word, int freq) {
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if (freq < 0) {
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freq = 0;
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} else if (freq > 255) {
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freq = 255;
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}
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char firstChar = word.charAt(0);
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int index = indexOf(roots, firstChar);
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int index = indexOf(mRoots, firstChar);
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if (index == -1) {
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CharNode newNode = new CharNode();
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newNode.data = firstChar;
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newNode.freq = occur;
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index = roots.size();
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roots.add(newNode);
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} else {
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roots.get(index).freq += occur;
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index = mRoots.size();
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mRoots.add(newNode);
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}
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final CharNode node = mRoots.get(index);
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if (word.length() > 1) {
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addWordRec(roots.get(index), word, 1, occur);
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addWordRec(node, word, 1, freq);
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} else {
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roots.get(index).terminal = true;
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node.terminal = true;
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node.freq = freq;
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}
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}
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private void addWordRec(CharNode parent, String word, int charAt, int occur) {
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private void addWordRec(CharNode parent, String word, int charAt, int freq) {
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CharNode child = null;
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char data = word.charAt(charAt);
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if (parent.children == null) {
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@ -229,89 +232,89 @@ public class MakeBinaryDictionary {
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parent.children.add(child);
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}
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child.data = data;
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if (child.freq == 0) child.freq = occur;
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if (word.length() > charAt + 1) {
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addWordRec(child, word, charAt + 1, occur);
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addWordRec(child, word, charAt + 1, freq);
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} else {
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child.terminal = true;
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child.freq = occur;
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child.freq = freq;
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}
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}
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byte[] dict;
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int dictSize;
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static final int CHAR_WIDTH = 8;
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static final int FLAGS_WIDTH = 1; // Terminal flag (word end)
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static final int ADDR_WIDTH = 23; // Offset to children
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static final int FREQ_WIDTH_BYTES = 1;
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static final int COUNT_WIDTH_BYTES = 1;
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private byte[] mDict;
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private int mDictSize;
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private static final int CHAR_WIDTH = 8;
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private static final int FLAGS_WIDTH = 1; // Terminal flag (word end)
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private static final int ADDR_WIDTH = 23; // Offset to children
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private static final int FREQ_WIDTH_BYTES = 1;
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private static final int COUNT_WIDTH_BYTES = 1;
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private void addCount(int count) {
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dict[dictSize++] = (byte) (0xFF & count);
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mDict[mDictSize++] = (byte) (0xFF & count);
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}
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private void addNode(CharNode node, String word1) {
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if (node.terminal) { // store address of each word1
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mDictionary.put(word1, dictSize);
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if (node.terminal) { // store address of each word1 for bigram dic generation
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mDictionary.put(word1, mDictSize);
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}
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int charData = 0xFFFF & node.data;
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if (charData > 254) {
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dict[dictSize++] = (byte) 255;
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dict[dictSize++] = (byte) ((node.data >> 8) & 0xFF);
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dict[dictSize++] = (byte) (node.data & 0xFF);
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mDict[mDictSize++] = (byte) 255;
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mDict[mDictSize++] = (byte) ((node.data >> 8) & 0xFF);
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mDict[mDictSize++] = (byte) (node.data & 0xFF);
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} else {
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dict[dictSize++] = (byte) (0xFF & node.data);
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mDict[mDictSize++] = (byte) (0xFF & node.data);
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}
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if (node.children != null) {
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dictSize += 3; // Space for children address
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mDictSize += 3; // Space for children address
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} else {
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dictSize += 1; // Space for just the terminal/address flags
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mDictSize += 1; // Space for just the terminal/address flags
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}
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if ((0xFFFFFF & node.freq) > 255) {
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node.freq = 255;
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}
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if (node.terminal) {
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byte freq = (byte) (0xFF & node.freq);
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dict[dictSize++] = freq;
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mDict[mDictSize++] = freq;
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// bigram
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if (bigramDict.mBi.containsKey(word1)) {
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int count = bigramDict.mBi.get(word1).count;
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bigramDict.mBigramToFill.add(word1);
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bigramDict.mBigramToFillAddress.add(dictSize);
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dictSize += (4 * count);
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if (mBigramDict.mBi.containsKey(word1)) {
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int count = mBigramDict.mBi.get(word1).count;
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mBigramDict.mBigramToFill.add(word1);
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mBigramDict.mBigramToFillAddress.add(mDictSize);
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mDictSize += (4 * count);
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} else {
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dict[dictSize++] = (byte) (0x00);
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mDict[mDictSize++] = (byte) (0x00);
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}
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}
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}
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int nullChildrenCount = 0;
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int notTerminalCount = 0;
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private int mNullChildrenCount = 0;
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private int mNotTerminalCount = 0;
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private void updateNodeAddress(int nodeAddress, CharNode node,
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int childrenAddress) {
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if ((dict[nodeAddress] & 0xFF) == 0xFF) { // 3 byte character
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if ((mDict[nodeAddress] & 0xFF) == 0xFF) { // 3 byte character
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nodeAddress += 2;
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}
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childrenAddress = ADDRESS_MASK & childrenAddress;
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if (childrenAddress == 0) {
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nullChildrenCount++;
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mNullChildrenCount++;
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} else {
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childrenAddress |= FLAG_ADDRESS_MASK;
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}
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if (node.terminal) {
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childrenAddress |= FLAG_TERMINAL_MASK;
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} else {
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notTerminalCount++;
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mNotTerminalCount++;
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}
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dict[nodeAddress + 1] = (byte) (childrenAddress >> 16);
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mDict[nodeAddress + 1] = (byte) (childrenAddress >> 16);
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if ((childrenAddress & FLAG_ADDRESS_MASK) != 0) {
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dict[nodeAddress + 2] = (byte) ((childrenAddress & 0xFF00) >> 8);
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dict[nodeAddress + 3] = (byte) ((childrenAddress & 0xFF));
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mDict[nodeAddress + 2] = (byte) ((childrenAddress & 0xFF00) >> 8);
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mDict[nodeAddress + 3] = (byte) ((childrenAddress & 0xFF));
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}
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}
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void writeWordsRec(List<CharNode> children, StringBuilder word) {
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private void writeWordsRec(List<CharNode> children, StringBuilder word) {
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if (children == null || children.size() == 0) {
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return;
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}
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@ -319,60 +322,59 @@ public class MakeBinaryDictionary {
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addCount(childCount);
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int[] childrenAddresses = new int[childCount];
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for (int j = 0; j < childCount; j++) {
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CharNode node = children.get(j);
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childrenAddresses[j] = dictSize;
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word.append(children.get(j).data);
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addNode(node, word.toString());
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word.deleteCharAt(word.length()-1);
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CharNode child = children.get(j);
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childrenAddresses[j] = mDictSize;
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word.append(child.data);
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addNode(child, word.toString());
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word.setLength(word.length() - 1);
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}
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for (int j = 0; j < childCount; j++) {
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CharNode node = children.get(j);
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CharNode child = children.get(j);
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int nodeAddress = childrenAddresses[j];
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int cacheDictSize = dictSize;
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word.append(children.get(j).data);
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writeWordsRec(node.children, word);
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word.deleteCharAt(word.length()-1);
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updateNodeAddress(nodeAddress, node, node.children != null
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? cacheDictSize : 0);
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int cacheDictSize = mDictSize;
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word.append(child.data);
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writeWordsRec(child.children, word);
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word.setLength(word.length() - 1);
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updateNodeAddress(nodeAddress, child, child.children != null ? cacheDictSize : 0);
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}
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}
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void writeToDict(String dictFilename) {
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private void writeToDict(String dictFilename) {
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// 4MB max, 22-bit offsets
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dict = new byte[4 * 1024 * 1024]; // 4MB upper limit. Actual is probably
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mDict = new byte[4 * 1024 * 1024]; // 4MB upper limit. Actual is probably
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// < 1MB in most cases, as there is a limit in the
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// resource size in apks.
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dictSize = 0;
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mDictSize = 0;
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dict[dictSize++] = (byte) (0xFF & VERSION_NUM); // version info
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dict[dictSize++] = (byte) (0xFF & (bigramDict.mHasBigram ? 1 : 0));
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mDict[mDictSize++] = (byte) (0xFF & VERSION_NUM); // version info
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mDict[mDictSize++] = (byte) (0xFF & (mBigramDict.mHasBigram ? 1 : 0));
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StringBuilder word = new StringBuilder(48);
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writeWordsRec(roots, word);
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dict = bigramDict.writeBigrams(dict, mDictionary);
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System.out.println("Dict Size = " + dictSize);
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final StringBuilder word = new StringBuilder(INITIAL_STRING_BUILDER_CAPACITY);
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writeWordsRec(mRoots, word);
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mDict = mBigramDict.writeBigrams(mDict, mDictionary);
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System.out.println("Dict Size = " + mDictSize);
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if (!sSplitOutput) {
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sOutputFileSize = dictSize;
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sOutputFileSize = mDictSize;
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}
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try {
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int currentLoc = 0;
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int i = 0;
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int extension = dictFilename.indexOf(".dict");
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String filename = dictFilename.substring(0, extension);
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while (dictSize > 0) {
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while (mDictSize > 0) {
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FileOutputStream fos;
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if (sSplitOutput) {
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fos = new FileOutputStream(filename + i + ".dict");
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} else {
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fos = new FileOutputStream(filename + ".dict");
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}
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if (dictSize > sOutputFileSize) {
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fos.write(dict, currentLoc, sOutputFileSize);
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dictSize -= sOutputFileSize;
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if (mDictSize > sOutputFileSize) {
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fos.write(mDict, currentLoc, sOutputFileSize);
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mDictSize -= sOutputFileSize;
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currentLoc += sOutputFileSize;
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} else {
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fos.write(dict, currentLoc, dictSize);
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dictSize = 0;
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fos.write(mDict, currentLoc, mDictSize);
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mDictSize = 0;
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}
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fos.close();
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i++;
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@ -382,36 +384,36 @@ public class MakeBinaryDictionary {
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}
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}
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void traverseDict(int pos, char[] word, int depth) {
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int count = dict[pos++] & 0xFF;
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private void traverseDict(int pos, char[] word, int depth) {
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int count = mDict[pos++] & 0xFF;
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for (int i = 0; i < count; i++) {
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char c = (char) (dict[pos++] & 0xFF);
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char c = (char) (mDict[pos++] & 0xFF);
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if (c == 0xFF) { // two byte character
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c = (char) (((dict[pos] & 0xFF) << 8) | (dict[pos+1] & 0xFF));
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c = (char) (((mDict[pos] & 0xFF) << 8) | (mDict[pos+1] & 0xFF));
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pos += 2;
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}
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word[depth] = c;
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boolean terminal = getFirstBitOfByte(pos, dict);
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boolean terminal = getFirstBitOfByte(pos, mDict);
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int address = 0;
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if ((dict[pos] & (FLAG_ADDRESS_MASK >> 16)) > 0) { // address check
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address = get22BitAddress(pos, dict);
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if ((mDict[pos] & (FLAG_ADDRESS_MASK >> 16)) > 0) { // address check
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address = get22BitAddress(pos, mDict);
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pos += 3;
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} else {
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pos += 1;
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}
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if (terminal) {
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showWord(word, depth + 1, dict[pos] & 0xFF);
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showWord(word, depth + 1, mDict[pos] & 0xFF);
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pos++;
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int bigramExist = (dict[pos] & bigramDict.FLAG_BIGRAM_READ);
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int bigramExist = (mDict[pos] & mBigramDict.FLAG_BIGRAM_READ);
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if (bigramExist > 0) {
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int nextBigramExist = 1;
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while (nextBigramExist > 0) {
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int bigramAddress = get22BitAddress(pos, dict);
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int bigramAddress = get22BitAddress(pos, mDict);
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pos += 3;
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int frequency = (bigramDict.FLAG_BIGRAM_FREQ & dict[pos]);
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bigramDict.searchForTerminalNode(bigramAddress, frequency, dict);
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nextBigramExist = (dict[pos++] & bigramDict.FLAG_BIGRAM_CONTINUED);
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int frequency = (mBigramDict.FLAG_BIGRAM_FREQ & mDict[pos]);
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mBigramDict.searchForTerminalNode(bigramAddress, frequency, mDict);
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nextBigramExist = (mDict[pos++] & mBigramDict.FLAG_BIGRAM_CONTINUED);
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}
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} else {
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pos++;
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|
@ -423,21 +425,21 @@ public class MakeBinaryDictionary {
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}
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}
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void showWord(char[] word, int size, int freq) {
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private static void showWord(char[] word, int size, int freq) {
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System.out.print(new String(word, 0, size) + " " + freq + "\n");
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}
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static int get22BitAddress(int pos, byte[] dict) {
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/* package */ static int get22BitAddress(int pos, byte[] dict) {
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return ((dict[pos + 0] & 0x3F) << 16)
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| ((dict[pos + 1] & 0xFF) << 8)
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| ((dict[pos + 2] & 0xFF));
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}
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||||
|
||||
static boolean getFirstBitOfByte(int pos, byte[] dict) {
|
||||
/* package */ static boolean getFirstBitOfByte(int pos, byte[] dict) {
|
||||
return (dict[pos] & 0x80) > 0;
|
||||
}
|
||||
|
||||
static boolean getSecondBitOfByte(int pos, byte[] dict) {
|
||||
/* package */ static boolean getSecondBitOfByte(int pos, byte[] dict) {
|
||||
return (dict[pos] & 0x40) > 0;
|
||||
}
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue