Merge "Include a code point table in the binary dictionary."
commit
7e5614520a
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@ -163,13 +163,15 @@ public final class FormatSpec {
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static final int NOT_A_VERSION_NUMBER = -1;
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// These MUST have the same values as the relevant constants in format_utils.h.
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// From version 4 on, we use version * 100 + revision as a version number. That allows
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// From version 2.01 on, we use version * 100 + revision as a version number. That allows
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// us to change the format during development while having testing devices remove
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// older files with each upgrade, while still having a readable versioning scheme.
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// When we bump up the dictionary format version, we should update
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// ExpandableDictionary.needsToMigrateDictionary() and
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// ExpandableDictionary.matchesExpectedBinaryDictFormatVersionForThisType().
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public static final int VERSION2 = 2;
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public static final int VERSION201 = 201;
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public static final int MINIMUM_SUPPORTED_VERSION_OF_CODE_POINT_TABLE = VERSION201;
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// Dictionary version used for testing.
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public static final int VERSION4_ONLY_FOR_TESTING = 399;
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public static final int VERSION401 = 401;
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@ -312,7 +312,7 @@ public class BinaryDictDecoderEncoderTests extends AndroidTestCase {
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final DictBuffer dictBuffer = new ByteArrayDictBuffer(buffer);
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for (final String word : sWords) {
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Arrays.fill(buffer, (byte) 0);
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CharEncoding.writeString(buffer, 0, word);
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CharEncoding.writeString(buffer, 0, word, null);
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dictBuffer.position(0);
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final String str = CharEncoding.readString(dictBuffer);
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assertEquals(word, str);
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@ -17,11 +17,11 @@
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package com.android.inputmethod.latin.makedict;
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import com.android.inputmethod.annotations.UsedForTesting;
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import java.io.File;
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import java.io.IOException;
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import java.io.OutputStream;
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import java.nio.ByteBuffer;
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import java.util.HashMap;
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/**
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* Decodes binary files for a FusionDictionary.
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@ -109,15 +109,19 @@ public final class BinaryDictDecoderUtils {
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* A class grouping utility function for our specific character encoding.
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*/
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static final class CharEncoding {
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private static final int MINIMAL_ONE_BYTE_CHARACTER_VALUE = 0x20;
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private static final int MAXIMAL_ONE_BYTE_CHARACTER_VALUE = 0xFF;
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/**
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* Helper method to find out whether this code fits on one byte
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*/
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private static boolean fitsOnOneByte(final int character) {
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return character >= MINIMAL_ONE_BYTE_CHARACTER_VALUE
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&& character <= MAXIMAL_ONE_BYTE_CHARACTER_VALUE;
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private static boolean fitsOnOneByte(int character,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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if (codePointToOneByteCodeMap != null) {
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if (codePointToOneByteCodeMap.containsKey(character)) {
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character = codePointToOneByteCodeMap.get(character);
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}
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}
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return character >= FormatSpec.MINIMAL_ONE_BYTE_CHARACTER_VALUE
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&& character <= FormatSpec.MAXIMAL_ONE_BYTE_CHARACTER_VALUE;
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}
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/**
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@ -137,9 +141,10 @@ public final class BinaryDictDecoderUtils {
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* @param character the character code.
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* @return the size in binary encoded-form, either 1 or 3 bytes.
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*/
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static int getCharSize(final int character) {
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static int getCharSize(final int character,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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// See char encoding in FusionDictionary.java
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if (fitsOnOneByte(character)) return 1;
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if (fitsOnOneByte(character, codePointToOneByteCodeMap)) return 1;
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if (FormatSpec.INVALID_CHARACTER == character) return 1;
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return 3;
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}
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@ -147,9 +152,10 @@ public final class BinaryDictDecoderUtils {
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/**
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* Compute the byte size of a character array.
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*/
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static int getCharArraySize(final int[] chars) {
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static int getCharArraySize(final int[] chars,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int size = 0;
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for (int character : chars) size += getCharSize(character);
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for (int character : chars) size += getCharSize(character, codePointToOneByteCodeMap);
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return size;
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}
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@ -159,11 +165,19 @@ public final class BinaryDictDecoderUtils {
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* @param codePoints the code point array to write.
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* @param buffer the byte buffer to write to.
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* @param index the index in buffer to write the character array to.
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* @param codePointToOneByteCodeMap the map to convert the code point.
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* @return the index after the last character.
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*/
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static int writeCharArray(final int[] codePoints, final byte[] buffer, int index) {
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static int writeCharArray(final int[] codePoints, final byte[] buffer, int index,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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for (int codePoint : codePoints) {
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if (1 == getCharSize(codePoint)) {
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if (codePointToOneByteCodeMap != null) {
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if (codePointToOneByteCodeMap.containsKey(codePoint)) {
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// Convert code points
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codePoint = codePointToOneByteCodeMap.get(codePoint);
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}
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}
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if (1 == getCharSize(codePoint, codePointToOneByteCodeMap)) {
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buffer[index++] = (byte)codePoint;
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} else {
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buffer[index++] = (byte)(0xFF & (codePoint >> 16));
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@ -184,12 +198,19 @@ public final class BinaryDictDecoderUtils {
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* @param word the string to write.
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* @return the size written, in bytes.
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*/
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static int writeString(final byte[] buffer, final int origin, final String word) {
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static int writeString(final byte[] buffer, final int origin, final String word,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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final int length = word.length();
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int index = origin;
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for (int i = 0; i < length; i = word.offsetByCodePoints(i, 1)) {
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final int codePoint = word.codePointAt(i);
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if (1 == getCharSize(codePoint)) {
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int codePoint = word.codePointAt(i);
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if (codePointToOneByteCodeMap != null) {
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if (codePointToOneByteCodeMap.containsKey(codePoint)) {
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// Convert code points
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codePoint = codePointToOneByteCodeMap.get(codePoint);
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}
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}
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if (1 == getCharSize(codePoint, codePointToOneByteCodeMap)) {
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buffer[index++] = (byte)codePoint;
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} else {
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buffer[index++] = (byte)(0xFF & (codePoint >> 16));
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@ -210,12 +231,13 @@ public final class BinaryDictDecoderUtils {
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* @param word the string to write.
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* @return the size written, in bytes.
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*/
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static int writeString(final OutputStream stream, final String word) throws IOException {
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static int writeString(final OutputStream stream, final String word,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) throws IOException {
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final int length = word.length();
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int written = 0;
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for (int i = 0; i < length; i = word.offsetByCodePoints(i, 1)) {
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final int codePoint = word.codePointAt(i);
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final int charSize = getCharSize(codePoint);
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final int charSize = getCharSize(codePoint, codePointToOneByteCodeMap);
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if (1 == charSize) {
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stream.write((byte) codePoint);
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} else {
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@ -253,7 +275,7 @@ public final class BinaryDictDecoderUtils {
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*/
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static int readChar(final DictBuffer dictBuffer) {
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int character = dictBuffer.readUnsignedByte();
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if (!fitsOnOneByte(character)) {
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if (!fitsOnOneByte(character, null)) {
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if (FormatSpec.PTNODE_CHARACTERS_TERMINATOR == character) {
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return FormatSpec.INVALID_CHARACTER;
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}
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@ -61,8 +61,9 @@ public class BinaryDictEncoderUtils {
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* @param characters the character array
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* @return the size of the char array, including the terminator if any
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*/
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static int getPtNodeCharactersSize(final int[] characters) {
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int size = CharEncoding.getCharArraySize(characters);
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static int getPtNodeCharactersSize(final int[] characters,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int size = CharEncoding.getCharArraySize(characters, codePointToOneByteCodeMap);
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if (characters.length > 1) size += FormatSpec.PTNODE_TERMINATOR_SIZE;
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return size;
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}
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@ -76,8 +77,9 @@ public class BinaryDictEncoderUtils {
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* @param ptNode the PtNode
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* @return the size of the char array, including the terminator if any
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*/
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private static int getPtNodeCharactersSize(final PtNode ptNode) {
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return getPtNodeCharactersSize(ptNode.mChars);
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private static int getPtNodeCharactersSize(final PtNode ptNode,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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return getPtNodeCharactersSize(ptNode.mChars, codePointToOneByteCodeMap);
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}
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/**
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@ -92,13 +94,14 @@ public class BinaryDictEncoderUtils {
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/**
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* Compute the size of a shortcut in bytes.
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*/
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private static int getShortcutSize(final WeightedString shortcut) {
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private static int getShortcutSize(final WeightedString shortcut,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int size = FormatSpec.PTNODE_ATTRIBUTE_FLAGS_SIZE;
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final String word = shortcut.mWord;
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final int length = word.length();
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for (int i = 0; i < length; i = word.offsetByCodePoints(i, 1)) {
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final int codePoint = word.codePointAt(i);
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size += CharEncoding.getCharSize(codePoint);
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size += CharEncoding.getCharSize(codePoint, codePointToOneByteCodeMap);
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}
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size += FormatSpec.PTNODE_TERMINATOR_SIZE;
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return size;
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@ -110,11 +113,12 @@ public class BinaryDictEncoderUtils {
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* This is known in advance and does not change according to position in the file
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* like address lists do.
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*/
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static int getShortcutListSize(final ArrayList<WeightedString> shortcutList) {
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static int getShortcutListSize(final ArrayList<WeightedString> shortcutList,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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if (null == shortcutList || shortcutList.isEmpty()) return 0;
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int size = FormatSpec.PTNODE_SHORTCUT_LIST_SIZE_SIZE;
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for (final WeightedString shortcut : shortcutList) {
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size += getShortcutSize(shortcut);
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size += getShortcutSize(shortcut, codePointToOneByteCodeMap);
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}
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return size;
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}
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@ -125,14 +129,16 @@ public class BinaryDictEncoderUtils {
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* @param ptNode the PtNode to compute the size of.
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* @return the maximum size of the PtNode.
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*/
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private static int getPtNodeMaximumSize(final PtNode ptNode) {
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int size = getNodeHeaderSize(ptNode);
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private static int getPtNodeMaximumSize(final PtNode ptNode,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int size = getNodeHeaderSize(ptNode, codePointToOneByteCodeMap);
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if (ptNode.isTerminal()) {
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// If terminal, one byte for the frequency.
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size += FormatSpec.PTNODE_FREQUENCY_SIZE;
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}
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size += FormatSpec.PTNODE_MAX_ADDRESS_SIZE; // For children address
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size += getShortcutListSize(ptNode.mShortcutTargets);
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// TODO: Use codePointToOneByteCodeMap for shortcuts.
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size += getShortcutListSize(ptNode.mShortcutTargets, null /* codePointToOneByteCodeMap */);
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if (null != ptNode.mBigrams) {
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size += (FormatSpec.PTNODE_ATTRIBUTE_FLAGS_SIZE
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+ FormatSpec.PTNODE_ATTRIBUTE_MAX_ADDRESS_SIZE)
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@ -148,10 +154,11 @@ public class BinaryDictEncoderUtils {
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*
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* @param ptNodeArray the node array to compute the maximum size of.
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*/
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private static void calculatePtNodeArrayMaximumSize(final PtNodeArray ptNodeArray) {
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private static void calculatePtNodeArrayMaximumSize(final PtNodeArray ptNodeArray,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int size = getPtNodeCountSize(ptNodeArray);
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for (PtNode node : ptNodeArray.mData) {
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final int nodeSize = getPtNodeMaximumSize(node);
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final int nodeSize = getPtNodeMaximumSize(node, codePointToOneByteCodeMap);
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node.mCachedSize = nodeSize;
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size += nodeSize;
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}
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@ -163,8 +170,10 @@ public class BinaryDictEncoderUtils {
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*
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* @param ptNode the PtNode of which to compute the size of the header
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*/
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private static int getNodeHeaderSize(final PtNode ptNode) {
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return FormatSpec.PTNODE_FLAGS_SIZE + getPtNodeCharactersSize(ptNode);
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private static int getNodeHeaderSize(final PtNode ptNode,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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return FormatSpec.PTNODE_FLAGS_SIZE + getPtNodeCharactersSize(ptNode,
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codePointToOneByteCodeMap);
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}
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/**
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@ -367,7 +376,8 @@ public class BinaryDictEncoderUtils {
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* @return false if none of the cached addresses inside the node array changed, true otherwise.
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*/
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private static boolean computeActualPtNodeArraySize(final PtNodeArray ptNodeArray,
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final FusionDictionary dict) {
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final FusionDictionary dict,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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boolean changed = false;
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int size = getPtNodeCountSize(ptNodeArray);
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for (PtNode ptNode : ptNodeArray.mData) {
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@ -375,7 +385,7 @@ public class BinaryDictEncoderUtils {
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if (ptNode.mCachedAddressAfterUpdate != ptNode.mCachedAddressBeforeUpdate) {
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changed = true;
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}
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int nodeSize = getNodeHeaderSize(ptNode);
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int nodeSize = getNodeHeaderSize(ptNode, codePointToOneByteCodeMap);
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if (ptNode.isTerminal()) {
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nodeSize += FormatSpec.PTNODE_FREQUENCY_SIZE;
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}
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@ -383,7 +393,9 @@ public class BinaryDictEncoderUtils {
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nodeSize += getByteSize(getOffsetToTargetNodeArrayDuringUpdate(ptNodeArray,
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nodeSize + size, ptNode.mChildren));
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}
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nodeSize += getShortcutListSize(ptNode.mShortcutTargets);
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// TODO: Use codePointToOneByteCodeMap for shortcuts.
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nodeSize += getShortcutListSize(ptNode.mShortcutTargets,
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null /* codePointToOneByteCodeMap */);
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if (null != ptNode.mBigrams) {
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for (WeightedString bigram : ptNode.mBigrams) {
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final int offset = getOffsetToTargetPtNodeDuringUpdate(ptNodeArray,
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@ -454,10 +466,11 @@ public class BinaryDictEncoderUtils {
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* @return the same array it was passed. The nodes have been updated for address and size.
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*/
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/* package */ static ArrayList<PtNodeArray> computeAddresses(final FusionDictionary dict,
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final ArrayList<PtNodeArray> flatNodes) {
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final ArrayList<PtNodeArray> flatNodes,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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// First get the worst possible sizes and offsets
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for (final PtNodeArray n : flatNodes) {
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calculatePtNodeArrayMaximumSize(n);
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calculatePtNodeArrayMaximumSize(n, codePointToOneByteCodeMap);
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}
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final int offset = initializePtNodeArraysCachedAddresses(flatNodes);
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@ -472,7 +485,8 @@ public class BinaryDictEncoderUtils {
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for (final PtNodeArray ptNodeArray : flatNodes) {
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ptNodeArray.mCachedAddressAfterUpdate = ptNodeArrayStartOffset;
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final int oldNodeArraySize = ptNodeArray.mCachedSize;
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final boolean changed = computeActualPtNodeArraySize(ptNodeArray, dict);
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final boolean changed = computeActualPtNodeArraySize(ptNodeArray, dict,
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codePointToOneByteCodeMap);
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final int newNodeArraySize = ptNodeArray.mCachedSize;
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if (oldNodeArraySize < newNodeArraySize) {
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throw new RuntimeException("Increased size ?!");
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@ -686,9 +700,10 @@ public class BinaryDictEncoderUtils {
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+ (frequency & FormatSpec.FLAG_BIGRAM_SHORTCUT_ATTR_FREQUENCY);
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}
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/* package */ static final int getChildrenPosition(final PtNode ptNode) {
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/* package */ static final int getChildrenPosition(final PtNode ptNode,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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int positionOfChildrenPosField = ptNode.mCachedAddressAfterUpdate
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+ getNodeHeaderSize(ptNode);
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+ getNodeHeaderSize(ptNode, codePointToOneByteCodeMap);
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if (ptNode.isTerminal()) {
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// A terminal node has the frequency.
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// If positionOfChildrenPosField is incorrect, we may crash when jumping to the children
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@ -705,10 +720,12 @@ public class BinaryDictEncoderUtils {
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* @param dict the dictionary the node array is a part of (for relative offsets).
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* @param dictEncoder the dictionary encoder.
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* @param ptNodeArray the node array to write.
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* @param codePointToOneByteCodeMap the map to convert the code points.
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*/
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@SuppressWarnings("unused")
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/* package */ static void writePlacedPtNodeArray(final FusionDictionary dict,
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final DictEncoder dictEncoder, final PtNodeArray ptNodeArray) {
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final DictEncoder dictEncoder, final PtNodeArray ptNodeArray,
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final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
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// TODO: Make the code in common with BinaryDictIOUtils#writePtNode
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dictEncoder.setPosition(ptNodeArray.mCachedAddressAfterUpdate);
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@ -727,7 +744,7 @@ public class BinaryDictEncoderUtils {
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+ FormatSpec.MAX_TERMINAL_FREQUENCY
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+ " : " + ptNode.mProbabilityInfo.toString());
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}
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dictEncoder.writePtNode(ptNode, dict);
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dictEncoder.writePtNode(ptNode, dict, codePointToOneByteCodeMap);
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}
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if (dictEncoder.getPosition() != ptNodeArray.mCachedAddressAfterUpdate
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+ ptNodeArray.mCachedSize) {
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@ -834,12 +851,16 @@ public class BinaryDictEncoderUtils {
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// Write out the options.
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for (final String key : dict.mOptions.mAttributes.keySet()) {
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final String value = dict.mOptions.mAttributes.get(key);
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CharEncoding.writeString(headerBuffer, key);
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CharEncoding.writeString(headerBuffer, value);
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CharEncoding.writeString(headerBuffer, key, null);
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CharEncoding.writeString(headerBuffer, value, null);
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}
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// Write out the codePointTable if there is codePointOccurrenceArray.
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if (codePointOccurrenceArray != null) {
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final String codePointTableString =
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encodeCodePointTable(codePointOccurrenceArray);
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CharEncoding.writeString(headerBuffer, DictionaryHeader.CODE_POINT_TABLE_KEY, null);
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CharEncoding.writeString(headerBuffer, codePointTableString, null);
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}
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// TODO: Write out the code point table.
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final int size = headerBuffer.size();
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final byte[] bytes = headerBuffer.toByteArray();
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// Write out the header size.
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@ -857,10 +878,30 @@ public class BinaryDictEncoderUtils {
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final HashMap<Integer, Integer> mCodePointToOneByteCodeMap;
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final ArrayList<Entry<Integer, Integer>> mCodePointOccurrenceArray;
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// Let code point table empty for version 200 dictionary which used in test
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CodePointTable() {
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mCodePointToOneByteCodeMap = null;
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mCodePointOccurrenceArray = null;
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}
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CodePointTable(final HashMap<Integer, Integer> codePointToOneByteCodeMap,
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final ArrayList<Entry<Integer, Integer>> codePointOccurrenceArray) {
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mCodePointToOneByteCodeMap = codePointToOneByteCodeMap;
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mCodePointOccurrenceArray = codePointOccurrenceArray;
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}
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}
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private static String encodeCodePointTable(
|
||||
final ArrayList<Entry<Integer, Integer>> codePointOccurrenceArray) {
|
||||
final StringBuilder codePointTableString = new StringBuilder();
|
||||
int currentCodePointTableIndex = FormatSpec.MINIMAL_ONE_BYTE_CHARACTER_VALUE;
|
||||
for (final Entry<Integer, Integer> entry : codePointOccurrenceArray) {
|
||||
// Native reads the table as a string
|
||||
codePointTableString.appendCodePoint(entry.getKey());
|
||||
if (FormatSpec.MAXIMAL_ONE_BYTE_CHARACTER_VALUE < ++currentCodePointTableIndex) {
|
||||
break;
|
||||
}
|
||||
}
|
||||
return codePointTableString.toString();
|
||||
}
|
||||
}
|
||||
|
|
|
@ -21,6 +21,7 @@ import com.android.inputmethod.latin.makedict.FormatSpec.FormatOptions;
|
|||
import com.android.inputmethod.latin.makedict.FusionDictionary.PtNode;
|
||||
|
||||
import java.io.IOException;
|
||||
import java.util.HashMap;
|
||||
|
||||
/**
|
||||
* An interface of binary dictionary encoder.
|
||||
|
@ -33,5 +34,6 @@ public interface DictEncoder {
|
|||
public void setPosition(final int position);
|
||||
public int getPosition();
|
||||
public void writePtNodeCount(final int ptNodeCount);
|
||||
public void writePtNode(final PtNode ptNode, final FusionDictionary dict);
|
||||
public void writePtNode(final PtNode ptNode, final FusionDictionary dict,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap);
|
||||
}
|
||||
|
|
|
@ -177,7 +177,8 @@ public class Ver2DictDecoder extends AbstractDictDecoder {
|
|||
if (header == null) {
|
||||
throw new IOException("Cannot read the dictionary header.");
|
||||
}
|
||||
if (header.mFormatOptions.mVersion != FormatSpec.VERSION2) {
|
||||
if (header.mFormatOptions.mVersion != FormatSpec.VERSION2 &&
|
||||
header.mFormatOptions.mVersion != FormatSpec.VERSION201) {
|
||||
throw new UnsupportedFormatException("File header has a wrong version : "
|
||||
+ header.mFormatOptions.mVersion);
|
||||
}
|
||||
|
@ -200,19 +201,19 @@ public class Ver2DictDecoder extends AbstractDictDecoder {
|
|||
if (0 != (flags & FormatSpec.FLAG_HAS_MULTIPLE_CHARS)) {
|
||||
int index = 0;
|
||||
int character = CharEncoding.readChar(mDictBuffer);
|
||||
addressPointer += CharEncoding.getCharSize(character);
|
||||
addressPointer += CharEncoding.getCharSize(character, null);
|
||||
while (FormatSpec.INVALID_CHARACTER != character) {
|
||||
// FusionDictionary is making sure that the length of the word is smaller than
|
||||
// MAX_WORD_LENGTH.
|
||||
// So we'll never write past the end of mCharacterBuffer.
|
||||
mCharacterBuffer[index++] = character;
|
||||
character = CharEncoding.readChar(mDictBuffer);
|
||||
addressPointer += CharEncoding.getCharSize(character);
|
||||
addressPointer += CharEncoding.getCharSize(character, null);
|
||||
}
|
||||
characters = Arrays.copyOfRange(mCharacterBuffer, 0, index);
|
||||
} else {
|
||||
final int character = CharEncoding.readChar(mDictBuffer);
|
||||
addressPointer += CharEncoding.getCharSize(character);
|
||||
addressPointer += CharEncoding.getCharSize(character, null);
|
||||
characters = new int[] { character };
|
||||
}
|
||||
final ProbabilityInfo probabilityInfo;
|
||||
|
|
|
@ -124,7 +124,7 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
@Override
|
||||
public void writeDictionary(final FusionDictionary dict, final FormatOptions formatOptions)
|
||||
throws IOException, UnsupportedFormatException {
|
||||
if (formatOptions.mVersion > FormatSpec.VERSION2) {
|
||||
if (formatOptions.mVersion > FormatSpec.VERSION201) {
|
||||
throw new UnsupportedFormatException(
|
||||
"The given format options has wrong version number : "
|
||||
+ formatOptions.mVersion);
|
||||
|
@ -135,7 +135,13 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
}
|
||||
|
||||
// Make code point conversion table ordered by occurrence of code points
|
||||
final CodePointTable codePointTable = makeCodePointTable(dict);
|
||||
// Version 201 or later have codePointTable
|
||||
final CodePointTable codePointTable;
|
||||
if (formatOptions.mVersion >= FormatSpec.MINIMUM_SUPPORTED_VERSION_OF_CODE_POINT_TABLE) {
|
||||
codePointTable = makeCodePointTable(dict);
|
||||
} else {
|
||||
codePointTable = new CodePointTable();
|
||||
}
|
||||
|
||||
BinaryDictEncoderUtils.writeDictionaryHeader(mOutStream, dict, formatOptions,
|
||||
codePointTable.mCodePointOccurrenceArray);
|
||||
|
@ -152,7 +158,8 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
ArrayList<PtNodeArray> flatNodes = BinaryDictEncoderUtils.flattenTree(dict.mRootNodeArray);
|
||||
|
||||
MakedictLog.i("Computing addresses...");
|
||||
BinaryDictEncoderUtils.computeAddresses(dict, flatNodes);
|
||||
BinaryDictEncoderUtils.computeAddresses(dict, flatNodes,
|
||||
codePointTable.mCodePointToOneByteCodeMap);
|
||||
MakedictLog.i("Checking PtNode array...");
|
||||
if (MakedictLog.DBG) BinaryDictEncoderUtils.checkFlatPtNodeArrayList(flatNodes);
|
||||
|
||||
|
@ -164,7 +171,8 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
MakedictLog.i("Writing file...");
|
||||
|
||||
for (PtNodeArray nodeArray : flatNodes) {
|
||||
BinaryDictEncoderUtils.writePlacedPtNodeArray(dict, this, nodeArray);
|
||||
BinaryDictEncoderUtils.writePlacedPtNodeArray(dict, this, nodeArray,
|
||||
codePointTable.mCodePointToOneByteCodeMap);
|
||||
}
|
||||
if (MakedictLog.DBG) BinaryDictEncoderUtils.showStatistics(flatNodes);
|
||||
mOutStream.write(mBuffer, 0, mPosition);
|
||||
|
@ -196,15 +204,19 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
countSize);
|
||||
}
|
||||
|
||||
private void writePtNodeFlags(final PtNode ptNode) {
|
||||
final int childrenPos = BinaryDictEncoderUtils.getChildrenPosition(ptNode);
|
||||
private void writePtNodeFlags(final PtNode ptNode,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
final int childrenPos = BinaryDictEncoderUtils.getChildrenPosition(ptNode,
|
||||
codePointToOneByteCodeMap);
|
||||
mPosition = BinaryDictEncoderUtils.writeUIntToBuffer(mBuffer, mPosition,
|
||||
BinaryDictEncoderUtils.makePtNodeFlags(ptNode, childrenPos),
|
||||
FormatSpec.PTNODE_FLAGS_SIZE);
|
||||
}
|
||||
|
||||
private void writeCharacters(final int[] codePoints, final boolean hasSeveralChars) {
|
||||
mPosition = CharEncoding.writeCharArray(codePoints, mBuffer, mPosition);
|
||||
private void writeCharacters(final int[] codePoints, final boolean hasSeveralChars,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
mPosition = CharEncoding.writeCharArray(codePoints, mBuffer, mPosition,
|
||||
codePointToOneByteCodeMap);
|
||||
if (hasSeveralChars) {
|
||||
mBuffer[mPosition++] = FormatSpec.PTNODE_CHARACTERS_TERMINATOR;
|
||||
}
|
||||
|
@ -217,8 +229,10 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
}
|
||||
}
|
||||
|
||||
private void writeChildrenPosition(final PtNode ptNode) {
|
||||
final int childrenPos = BinaryDictEncoderUtils.getChildrenPosition(ptNode);
|
||||
private void writeChildrenPosition(final PtNode ptNode,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
final int childrenPos = BinaryDictEncoderUtils.getChildrenPosition(ptNode,
|
||||
codePointToOneByteCodeMap);
|
||||
mPosition += BinaryDictEncoderUtils.writeChildrenPosition(mBuffer, mPosition,
|
||||
childrenPos);
|
||||
}
|
||||
|
@ -228,7 +242,8 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
*
|
||||
* @param shortcuts the shortcut attributes list.
|
||||
*/
|
||||
private void writeShortcuts(final ArrayList<WeightedString> shortcuts) {
|
||||
private void writeShortcuts(final ArrayList<WeightedString> shortcuts,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
if (null == shortcuts || shortcuts.isEmpty()) return;
|
||||
|
||||
final int indexOfShortcutByteSize = mPosition;
|
||||
|
@ -241,7 +256,8 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
target.getProbability());
|
||||
mPosition = BinaryDictEncoderUtils.writeUIntToBuffer(mBuffer, mPosition, shortcutFlags,
|
||||
FormatSpec.PTNODE_ATTRIBUTE_FLAGS_SIZE);
|
||||
final int shortcutShift = CharEncoding.writeString(mBuffer, mPosition, target.mWord);
|
||||
final int shortcutShift = CharEncoding.writeString(mBuffer, mPosition, target.mWord,
|
||||
codePointToOneByteCodeMap);
|
||||
mPosition += shortcutShift;
|
||||
}
|
||||
final int shortcutByteSize = mPosition - indexOfShortcutByteSize;
|
||||
|
@ -281,12 +297,14 @@ public class Ver2DictEncoder implements DictEncoder {
|
|||
}
|
||||
|
||||
@Override
|
||||
public void writePtNode(final PtNode ptNode, final FusionDictionary dict) {
|
||||
writePtNodeFlags(ptNode);
|
||||
writeCharacters(ptNode.mChars, ptNode.hasSeveralChars());
|
||||
public void writePtNode(final PtNode ptNode, final FusionDictionary dict,
|
||||
final HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
writePtNodeFlags(ptNode, codePointToOneByteCodeMap);
|
||||
writeCharacters(ptNode.mChars, ptNode.hasSeveralChars(), codePointToOneByteCodeMap);
|
||||
writeFrequency(ptNode.getProbability());
|
||||
writeChildrenPosition(ptNode);
|
||||
writeShortcuts(ptNode.mShortcutTargets);
|
||||
writeChildrenPosition(ptNode, codePointToOneByteCodeMap);
|
||||
// TODO: Use codePointToOneByteCodeMap for shortcuts.
|
||||
writeShortcuts(ptNode.mShortcutTargets, null /* codePointToOneByteCodeMap */);
|
||||
writeBigrams(ptNode.mBigrams, dict);
|
||||
}
|
||||
}
|
||||
|
|
|
@ -27,6 +27,7 @@ import com.android.inputmethod.latin.utils.LocaleUtils;
|
|||
|
||||
import java.io.File;
|
||||
import java.io.IOException;
|
||||
import java.util.HashMap;
|
||||
|
||||
/**
|
||||
* An implementation of DictEncoder for version 4 binary dictionary.
|
||||
|
@ -142,6 +143,7 @@ public class Ver4DictEncoder implements DictEncoder {
|
|||
}
|
||||
|
||||
@Override
|
||||
public void writePtNode(PtNode ptNode, FusionDictionary dict) {
|
||||
public void writePtNode(PtNode ptNode, FusionDictionary dict,
|
||||
HashMap<Integer, Integer> codePointToOneByteCodeMap) {
|
||||
}
|
||||
}
|
||||
|
|
|
@ -158,7 +158,7 @@ public class DictionaryMaker {
|
|||
String outputBinary = null;
|
||||
String outputXml = null;
|
||||
String outputCombined = null;
|
||||
int outputBinaryFormatVersion = 2; // the default version is 2.
|
||||
int outputBinaryFormatVersion = FormatSpec.VERSION201; // the default version is 201.
|
||||
// Don't use code point table by default.
|
||||
int codePointTableMode = Ver2DictEncoder.CODE_POINT_TABLE_OFF;
|
||||
|
||||
|
|
Loading…
Reference in New Issue