am 712fefd8: Merge "Use BinaryDictonaryInfo instead of raw pointers."

* commit '712fefd85fa024259b81e50e98b18b749b9bde69':
  Use BinaryDictonaryInfo instead of raw pointers.
main
Keisuke Kuroyanagi 2013-06-02 17:55:55 -07:00 committed by Android Git Automerger
commit 8ff5c03bf0
22 changed files with 571 additions and 139 deletions

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@ -58,6 +58,8 @@ LATIN_IME_CORE_SRC_FILES := \
dic_nodes_cache.cpp) \
$(addprefix suggest/core/dictionary/, \
char_utils.cpp \
binary_dictionary_format.cpp \
byte_array_utils.cpp \
dictionary.cpp \
digraph_utils.cpp) \
$(addprefix suggest/core/layout/, \

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@ -35,7 +35,8 @@
#include "jni.h"
#include "jni_common.h"
#include "suggest_options.h"
#include "suggest/core/dictionary/binary_format.h"
#include "suggest/core/dictionary/binary_dictionary_format.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/dictionary.h"
namespace latinime {
@ -110,8 +111,8 @@ static jlong latinime_BinaryDictionary_open(JNIEnv *env, jclass clazz, jstring s
return 0;
}
Dictionary *dictionary = 0;
if (BinaryFormat::UNKNOWN_FORMAT
== BinaryFormat::detectFormat(static_cast<uint8_t *>(dictBuf),
if (BinaryDictionaryFormat::UNKNOWN_VERSION
== BinaryDictionaryFormat::detectFormatVersion(static_cast<uint8_t *>(dictBuf),
static_cast<int>(dictSize))) {
AKLOGE("DICT: dictionary format is unknown, bad magic number");
#ifdef USE_MMAP_FOR_DICTIONARY
@ -260,7 +261,7 @@ static jint latinime_BinaryDictionary_editDistance(JNIEnv *env, jclass clazz, ji
static void latinime_BinaryDictionary_close(JNIEnv *env, jclass clazz, jlong dict) {
Dictionary *dictionary = reinterpret_cast<Dictionary *>(dict);
if (!dictionary) return;
const void *dictBuf = dictionary->getDict();
const void *dictBuf = dictionary->getBinaryDictionaryInfo()->getDictBuf();
if (!dictBuf) return;
#ifdef USE_MMAP_FOR_DICTIONARY
releaseDictBuf(static_cast<const char *>(dictBuf) - dictionary->getDictBufAdjust(),

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@ -21,6 +21,7 @@
#include "bigram_dictionary.h"
#include "defines.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
#include "suggest/core/dictionary/bloom_filter.h"
#include "suggest/core/dictionary/char_utils.h"
@ -29,7 +30,8 @@
namespace latinime {
BigramDictionary::BigramDictionary(const uint8_t *const streamStart) : DICT_ROOT(streamStart) {
BigramDictionary::BigramDictionary(const BinaryDictionaryInfo *const binaryDictionaryInfo)
: mBinaryDictionaryInfo(binaryDictionaryInfo) {
if (DEBUG_DICT) {
AKLOGI("BigramDictionary - constructor");
}
@ -104,7 +106,7 @@ int BigramDictionary::getBigrams(const int *prevWord, int prevWordLength, int *i
// TODO: remove unused arguments, and refrain from storing stuff in members of this class
// TODO: have "in" arguments before "out" ones, and make out args explicit in the name
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDictionaryInfo->getDictRoot();
int pos = getBigramListPositionForWord(prevWord, prevWordLength,
false /* forceLowerCaseSearch */);
// getBigramListPositionForWord returns 0 if this word isn't in the dictionary or has no bigrams
@ -150,7 +152,7 @@ int BigramDictionary::getBigrams(const int *prevWord, int prevWordLength, int *i
int BigramDictionary::getBigramListPositionForWord(const int *prevWord, const int prevWordLength,
const bool forceLowerCaseSearch) const {
if (0 >= prevWordLength) return 0;
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDictionaryInfo->getDictRoot();
int pos = BinaryFormat::getTerminalPosition(root, prevWord, prevWordLength,
forceLowerCaseSearch);
@ -171,7 +173,7 @@ int BigramDictionary::getBigramListPositionForWord(const int *prevWord, const in
void BigramDictionary::fillBigramAddressToProbabilityMapAndFilter(const int *prevWord,
const int prevWordLength, std::map<int, int> *map, uint8_t *filter) const {
memset(filter, 0, BIGRAM_FILTER_BYTE_SIZE);
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDictionaryInfo->getDictRoot();
int pos = getBigramListPositionForWord(prevWord, prevWordLength,
false /* forceLowerCaseSearch */);
if (0 == pos) {
@ -210,7 +212,7 @@ bool BigramDictionary::checkFirstCharacter(int *word, int *inputCodePoints) cons
bool BigramDictionary::isValidBigram(const int *word1, int length1, const int *word2,
int length2) const {
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDictionaryInfo->getDictRoot();
int pos = getBigramListPositionForWord(word1, length1, false /* forceLowerCaseSearch */);
// getBigramListPositionForWord returns 0 if this word isn't in the dictionary or has no bigrams
if (0 == pos) return false;

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@ -24,9 +24,12 @@
namespace latinime {
class BinaryDictionaryInfo;
class BigramDictionary {
public:
BigramDictionary(const uint8_t *const streamStart);
BigramDictionary(const BinaryDictionaryInfo *const binaryDictionaryInfo);
int getBigrams(const int *word, int length, int *inputCodePoints, int inputSize, int *outWords,
int *frequencies, int *outputTypes) const;
void fillBigramAddressToProbabilityMapAndFilter(const int *prevWord, const int prevWordLength,
@ -35,13 +38,14 @@ class BigramDictionary {
~BigramDictionary();
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(BigramDictionary);
void addWordBigram(int *word, int length, int probability, int *bigramProbability,
int *bigramCodePoints, int *outputTypes) const;
bool checkFirstCharacter(int *word, int *inputCodePoints) const;
int getBigramListPositionForWord(const int *prevWord, const int prevWordLength,
const bool forceLowerCaseSearch) const;
const uint8_t *const DICT_ROOT;
const BinaryDictionaryInfo *const mBinaryDictionaryInfo;
// TODO: Re-implement proximity correction for bigram correction
static const int MAX_ALTERNATIVES = 1;
};

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@ -20,6 +20,7 @@
#include "suggest/core/dicnode/dic_node.h"
#include "suggest/core/dicnode/dic_node_utils.h"
#include "suggest/core/dicnode/dic_node_vector.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
#include "suggest/core/dictionary/char_utils.h"
#include "suggest/core/dictionary/multi_bigram_map.h"
@ -33,20 +34,23 @@ namespace latinime {
// Node initialization utils //
///////////////////////////////
/* static */ void DicNodeUtils::initAsRoot(const int rootPos, const uint8_t *const dicRoot,
const int prevWordNodePos, DicNode *newRootNode) {
int curPos = rootPos;
/* static */ void DicNodeUtils::initAsRoot(const BinaryDictionaryInfo *const binaryDictionaryInfo,
const int prevWordNodePos, DicNode *const newRootNode) {
int curPos = binaryDictionaryInfo->getRootPosition();
const int pos = curPos;
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer(dicRoot, &curPos);
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &curPos);
const int childrenPos = curPos;
newRootNode->initAsRoot(pos, childrenPos, childrenCount, prevWordNodePos);
}
/*static */ void DicNodeUtils::initAsRootWithPreviousWord(const int rootPos,
const uint8_t *const dicRoot, DicNode *prevWordLastNode, DicNode *newRootNode) {
int curPos = rootPos;
/*static */ void DicNodeUtils::initAsRootWithPreviousWord(
const BinaryDictionaryInfo *const binaryDictionaryInfo,
DicNode *const prevWordLastNode, DicNode *const newRootNode) {
int curPos = binaryDictionaryInfo->getRootPosition();
const int pos = curPos;
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer(dicRoot, &curPos);
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &curPos);
const int childrenPos = curPos;
newRootNode->initAsRootWithPreviousWord(prevWordLastNode, pos, childrenPos, childrenCount);
}
@ -72,16 +76,19 @@ namespace latinime {
}
/* static */ int DicNodeUtils::createAndGetLeavingChildNode(DicNode *dicNode, int pos,
const uint8_t *const dicRoot, const int terminalDepth, const ProximityInfoState *pInfoState,
const int pointIndex, const bool exactOnly, const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes) {
const BinaryDictionaryInfo *const binaryDictionaryInfo, const int terminalDepth,
const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly,
const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo,
DicNodeVector *childDicNodes) {
int nextPos = pos;
const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(dicRoot, &pos);
const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &pos);
const bool hasMultipleChars = (0 != (BinaryFormat::FLAG_HAS_MULTIPLE_CHARS & flags));
const bool isTerminal = (0 != (BinaryFormat::FLAG_IS_TERMINAL & flags));
const bool hasChildren = BinaryFormat::hasChildrenInFlags(flags);
int codePoint = BinaryFormat::getCodePointAndForwardPointer(dicRoot, &pos);
int codePoint = BinaryFormat::getCodePointAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &pos);
ASSERT(NOT_A_CODE_POINT != codePoint);
const int nodeCodePoint = codePoint;
// TODO: optimize this
@ -91,7 +98,8 @@ namespace latinime {
do {
const int nextCodePoint = hasMultipleChars
? BinaryFormat::getCodePointAndForwardPointer(dicRoot, &pos) : NOT_A_CODE_POINT;
? BinaryFormat::getCodePointAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &pos) : NOT_A_CODE_POINT;
const bool isLastChar = (NOT_A_CODE_POINT == nextCodePoint);
if (!isLastChar) {
additionalWordBuf[additionalSubwordLength++] = nextCodePoint;
@ -99,12 +107,14 @@ namespace latinime {
codePoint = nextCodePoint;
} while (NOT_A_CODE_POINT != codePoint);
const int probability =
isTerminal ? BinaryFormat::readProbabilityWithoutMovingPointer(dicRoot, pos) : -1;
const int probability = isTerminal ? BinaryFormat::readProbabilityWithoutMovingPointer(
binaryDictionaryInfo->getDictRoot(), pos) : -1;
pos = BinaryFormat::skipProbability(flags, pos);
int childrenPos = hasChildren ? BinaryFormat::readChildrenPosition(dicRoot, flags, pos) : 0;
int childrenPos = hasChildren ? BinaryFormat::readChildrenPosition(
binaryDictionaryInfo->getDictRoot(), flags, pos) : 0;
const int attributesPos = BinaryFormat::skipChildrenPosition(flags, pos);
const int siblingPos = BinaryFormat::skipChildrenPosAndAttributes(dicRoot, flags, pos);
const int siblingPos = BinaryFormat::skipChildrenPosAndAttributes(
binaryDictionaryInfo->getDictRoot(), flags, pos);
if (isDicNodeFilteredOut(nodeCodePoint, pInfo, codePointsFilter)) {
return siblingPos;
@ -112,8 +122,8 @@ namespace latinime {
if (!isMatchedNodeCodePoint(pInfoState, pointIndex, exactOnly, nodeCodePoint)) {
return siblingPos;
}
const int childrenCount = hasChildren
? BinaryFormat::getGroupCountAndForwardPointer(dicRoot, &childrenPos) : 0;
const int childrenCount = hasChildren ? BinaryFormat::getGroupCountAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &childrenPos) : 0;
childDicNodes->pushLeavingChild(dicNode, nextPos, flags, childrenPos, attributesPos, siblingPos,
nodeCodePoint, childrenCount, probability, -1 /* bigramProbability */, isTerminal,
hasMultipleChars, hasChildren, additionalSubwordLength, additionalWordBuf);
@ -149,16 +159,18 @@ namespace latinime {
}
/* static */ void DicNodeUtils::createAndGetAllLeavingChildNodes(DicNode *dicNode,
const uint8_t *const dicRoot, const ProximityInfoState *pInfoState, const int pointIndex,
const bool exactOnly, const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes) {
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly,
const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo,
DicNodeVector *childDicNodes) {
const int terminalDepth = dicNode->getLeavingDepth();
const int childCount = dicNode->getChildrenCount();
int nextPos = dicNode->getChildrenPos();
for (int i = 0; i < childCount; i++) {
const int filterSize = codePointsFilter ? codePointsFilter->size() : 0;
nextPos = createAndGetLeavingChildNode(dicNode, nextPos, dicRoot, terminalDepth, pInfoState,
pointIndex, exactOnly, codePointsFilter, pInfo, childDicNodes);
nextPos = createAndGetLeavingChildNode(dicNode, nextPos, binaryDictionaryInfo,
terminalDepth, pInfoState, pointIndex, exactOnly, codePointsFilter, pInfo,
childDicNodes);
if (!pInfo && filterSize > 0 && childDicNodes->exceeds(filterSize)) {
// All code points have been found.
break;
@ -166,14 +178,15 @@ namespace latinime {
}
}
/* static */ void DicNodeUtils::getAllChildDicNodes(DicNode *dicNode, const uint8_t *const dicRoot,
DicNodeVector *childDicNodes) {
getProximityChildDicNodes(dicNode, dicRoot, 0, 0, false, childDicNodes);
/* static */ void DicNodeUtils::getAllChildDicNodes(DicNode *dicNode,
const BinaryDictionaryInfo *const binaryDictionaryInfo, DicNodeVector *childDicNodes) {
getProximityChildDicNodes(dicNode, binaryDictionaryInfo, 0, 0, false, childDicNodes);
}
/* static */ void DicNodeUtils::getProximityChildDicNodes(DicNode *dicNode,
const uint8_t *const dicRoot, const ProximityInfoState *pInfoState, const int pointIndex,
bool exactOnly, DicNodeVector *childDicNodes) {
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, bool exactOnly,
DicNodeVector *childDicNodes) {
if (dicNode->isTotalInputSizeExceedingLimit()) {
return;
}
@ -181,9 +194,9 @@ namespace latinime {
DicNodeUtils::createAndGetPassingChildNode(dicNode, pInfoState, pointIndex, exactOnly,
childDicNodes);
} else {
DicNodeUtils::createAndGetAllLeavingChildNodes(dicNode, dicRoot, pInfoState, pointIndex,
exactOnly, 0 /* codePointsFilter */, 0 /* pInfo */,
childDicNodes);
DicNodeUtils::createAndGetAllLeavingChildNodes(
dicNode, binaryDictionaryInfo, pInfoState, pointIndex, exactOnly,
0 /* codePointsFilter */, 0 /* pInfo */, childDicNodes);
}
}
@ -193,19 +206,21 @@ namespace latinime {
/**
* Computes the combined bigram / unigram cost for the given dicNode.
*/
/* static */ float DicNodeUtils::getBigramNodeImprobability(const uint8_t *const dicRoot,
/* static */ float DicNodeUtils::getBigramNodeImprobability(
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const DicNode *const node, MultiBigramMap *multiBigramMap) {
if (node->isImpossibleBigramWord()) {
return static_cast<float>(MAX_VALUE_FOR_WEIGHTING);
}
const int probability = getBigramNodeProbability(dicRoot, node, multiBigramMap);
const int probability = getBigramNodeProbability(binaryDictionaryInfo, node, multiBigramMap);
// TODO: This equation to calculate the improbability looks unreasonable. Investigate this.
const float cost = static_cast<float>(MAX_PROBABILITY - probability)
/ static_cast<float>(MAX_PROBABILITY);
return cost;
}
/* static */ int DicNodeUtils::getBigramNodeProbability(const uint8_t *const dicRoot,
/* static */ int DicNodeUtils::getBigramNodeProbability(
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const DicNode *const node, MultiBigramMap *multiBigramMap) {
const int unigramProbability = node->getProbability();
const int wordPos = node->getPos();
@ -216,9 +231,10 @@ namespace latinime {
}
if (multiBigramMap) {
return multiBigramMap->getBigramProbability(
dicRoot, prevWordPos, wordPos, unigramProbability);
binaryDictionaryInfo, prevWordPos, wordPos, unigramProbability);
}
return BinaryFormat::getBigramProbability(dicRoot, prevWordPos, wordPos, unigramProbability);
return BinaryFormat::getBigramProbability(
binaryDictionaryInfo->getDictRoot(), prevWordPos, wordPos, unigramProbability);
}
///////////////////////////////////////

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@ -24,6 +24,7 @@
namespace latinime {
class BinaryDictionaryInfo;
class DicNode;
class DicNodeVector;
class ProximityInfo;
@ -34,19 +35,20 @@ class DicNodeUtils {
public:
static int appendTwoWords(const int *src0, const int16_t length0, const int *src1,
const int16_t length1, int *dest);
static void initAsRoot(const int rootPos, const uint8_t *const dicRoot,
static void initAsRoot(const BinaryDictionaryInfo *const binaryDictionaryInfo,
const int prevWordNodePos, DicNode *newRootNode);
static void initAsRootWithPreviousWord(const int rootPos, const uint8_t *const dicRoot,
static void initAsRootWithPreviousWord(const BinaryDictionaryInfo *const binaryDictionaryInfo,
DicNode *prevWordLastNode, DicNode *newRootNode);
static void initByCopy(DicNode *srcNode, DicNode *destNode);
static void getAllChildDicNodes(DicNode *dicNode, const uint8_t *const dicRoot,
DicNodeVector *childDicNodes);
static float getBigramNodeImprobability(const uint8_t *const dicRoot,
static void getAllChildDicNodes(DicNode *dicNode,
const BinaryDictionaryInfo *const binaryDictionaryInfo, DicNodeVector *childDicNodes);
static float getBigramNodeImprobability(const BinaryDictionaryInfo *const binaryDictionaryInfo,
const DicNode *const node, MultiBigramMap *const multiBigramMap);
static bool isDicNodeFilteredOut(const int nodeCodePoint, const ProximityInfo *const pInfo,
const std::vector<int> *const codePointsFilter);
// TODO: Move to private
static void getProximityChildDicNodes(DicNode *dicNode, const uint8_t *const dicRoot,
static void getProximityChildDicNodes(DicNode *dicNode,
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, bool exactOnly,
DicNodeVector *childDicNodes);
@ -60,16 +62,18 @@ class DicNodeUtils {
// Max number of bigrams to look up
static const int MAX_BIGRAMS_CONSIDERED_PER_CONTEXT = 500;
static int getBigramNodeProbability(const uint8_t *const dicRoot, const DicNode *const node,
MultiBigramMap *multiBigramMap);
static int getBigramNodeProbability(const BinaryDictionaryInfo *const binaryDictionaryInfo,
const DicNode *const node, MultiBigramMap *multiBigramMap);
static void createAndGetPassingChildNode(DicNode *dicNode, const ProximityInfoState *pInfoState,
const int pointIndex, const bool exactOnly, DicNodeVector *childDicNodes);
static void createAndGetAllLeavingChildNodes(DicNode *dicNode, const uint8_t *const dicRoot,
static void createAndGetAllLeavingChildNodes(DicNode *dicNode,
const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly,
const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes);
static int createAndGetLeavingChildNode(DicNode *dicNode, int pos, const uint8_t *const dicRoot,
const int terminalDepth, const ProximityInfoState *pInfoState, const int pointIndex,
static int createAndGetLeavingChildNode(DicNode *dicNode, int pos,
const BinaryDictionaryInfo *const binaryDictionaryInfo, const int terminalDepth,
const ProximityInfoState *pInfoState, const int pointIndex,
const bool exactOnly, const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes);

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@ -0,0 +1,84 @@
/*
* Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "suggest/core/dictionary/binary_dictionary_format.h"
namespace latinime {
/**
* Dictionary size
*/
// Any file smaller than this is not a dictionary.
const int BinaryDictionaryFormat::DICTIONARY_MINIMUM_SIZE = 4;
/**
* Format versions
*/
// Originally, format version 1 had a 16-bit magic number, then the version number `01'
// then options that must be 0. Hence the first 32-bits of the format are always as follow
// and it's okay to consider them a magic number as a whole.
const uint32_t BinaryDictionaryFormat::FORMAT_VERSION_1_MAGIC_NUMBER = 0x78B10100;
const int BinaryDictionaryFormat::FORMAT_VERSION_1_HEADER_SIZE = 5;
// The versions of Latin IME that only handle format version 1 only test for the magic
// number, so we had to change it so that version 2 files would be rejected by older
// implementations. On this occasion, we made the magic number 32 bits long.
const uint32_t BinaryDictionaryFormat::FORMAT_VERSION_2_MAGIC_NUMBER = 0x9BC13AFE;
// Magic number (4 bytes), version (2 bytes), options (2 bytes), header size (4 bytes) = 12
const int BinaryDictionaryFormat::FORMAT_VERSION_2_MINIMUM_SIZE = 12;
const int BinaryDictionaryFormat::VERSION_2_MAGIC_NUMBER_SIZE = 4;
const int BinaryDictionaryFormat::VERSION_2_DICTIONARY_VERSION_SIZE = 2;
const int BinaryDictionaryFormat::VERSION_2_DICTIONARY_FLAG_SIZE = 2;
/* static */ BinaryDictionaryFormat::FORMAT_VERSION BinaryDictionaryFormat::detectFormatVersion(
const uint8_t *const dict, const int dictSize) {
// The magic number is stored big-endian.
// If the dictionary is less than 4 bytes, we can't even read the magic number, so we don't
// understand this format.
if (dictSize < DICTIONARY_MINIMUM_SIZE) {
return UNKNOWN_VERSION;
}
const uint32_t magicNumber = ByteArrayUtils::readUint32(dict, 0);
switch (magicNumber) {
case FORMAT_VERSION_1_MAGIC_NUMBER:
// Format 1 header is exactly 5 bytes long and looks like:
// Magic number (2 bytes) 0x78 0xB1
// Version number (1 byte) 0x01
// Options (2 bytes) must be 0x00 0x00
return VERSION_1;
case FORMAT_VERSION_2_MAGIC_NUMBER:
// Version 2 dictionaries are at least 12 bytes long.
// If this dictionary has the version 2 magic number but is less than 12 bytes long,
// then it's an unknown format and we need to avoid confidently reading the next bytes.
if (dictSize < FORMAT_VERSION_2_MINIMUM_SIZE) {
return UNKNOWN_VERSION;
}
// Format 2 header is as follows:
// Magic number (4 bytes) 0x9B 0xC1 0x3A 0xFE
// Version number (2 bytes) 0x00 0x02
// Options (2 bytes)
// Header size (4 bytes) : integer, big endian
if (ByteArrayUtils::readUint16(dict, 4) == 2) {
return VERSION_2;
} else {
return UNKNOWN_VERSION;
}
default:
return UNKNOWN_VERSION;
}
}
} // namespace latinime

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@ -0,0 +1,71 @@
/*
* Copyright (C) 2013, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef LATINIME_BINARY_DICTIONARY_FORMAT_H
#define LATINIME_BINARY_DICTIONARY_FORMAT_H
#include <stdint.h>
#include "defines.h"
#include "suggest/core/dictionary/byte_array_utils.h"
namespace latinime {
/**
* Methods to handle binary dictionary format version.
*
* Currently, we have a file with a similar name, binary_format.h. binary_format.h contains binary
* reading methods and utility methods for various purposes.
* On the other hand, this file deals with only about dictionary format version.
*/
class BinaryDictionaryFormat {
public:
// TODO: Remove obsolete version logic
enum FORMAT_VERSION {
VERSION_1,
VERSION_2,
UNKNOWN_VERSION
};
static FORMAT_VERSION detectFormatVersion(const uint8_t *const dict, const int dictSize);
static AK_FORCE_INLINE int getHeaderSize(
const uint8_t *const dict, const FORMAT_VERSION format) {
switch (format) {
case VERSION_1:
return FORMAT_VERSION_1_HEADER_SIZE;
case VERSION_2:
// See the format of the header in the comment in detectFormat() above
return ByteArrayUtils::readUint32(dict, 8);
default:
return S_INT_MAX;
}
}
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(BinaryDictionaryFormat);
static const int DICTIONARY_MINIMUM_SIZE;
static const uint32_t FORMAT_VERSION_1_MAGIC_NUMBER;
static const int FORMAT_VERSION_1_HEADER_SIZE;
static const uint32_t FORMAT_VERSION_2_MAGIC_NUMBER;
static const int FORMAT_VERSION_2_MINIMUM_SIZE;
static const int VERSION_2_MAGIC_NUMBER_SIZE;
static const int VERSION_2_DICTIONARY_VERSION_SIZE ;
static const int VERSION_2_DICTIONARY_FLAG_SIZE;
};
} // namespace latinime
#endif /* LATINIME_BINARY_DICTIONARY_FORMAT_H */

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@ -0,0 +1,58 @@
/*
* Copyright (C) 2013, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef LATINIME_BINARY_DICTIONARY_INFO_H
#define LATINIME_BINARY_DICTIONARY_INFO_H
#include <stdint.h>
#include "defines.h"
#include "suggest/core/dictionary/binary_dictionary_format.h"
namespace latinime {
class BinaryDictionaryInfo {
public:
BinaryDictionaryInfo(const uint8_t *const dictBuf, const int dictSize)
: mDictBuf(dictBuf),
mFormat(BinaryDictionaryFormat::detectFormatVersion(mDictBuf, dictSize)),
mDictRoot(mDictBuf + BinaryDictionaryFormat::getHeaderSize(mDictBuf, mFormat)) {}
AK_FORCE_INLINE const uint8_t *getDictBuf() const {
return mDictBuf;
}
AK_FORCE_INLINE const uint8_t *getDictRoot() const {
return mDictRoot;
}
AK_FORCE_INLINE BinaryDictionaryFormat::FORMAT_VERSION getFormat() const {
return mFormat;
}
AK_FORCE_INLINE int getRootPosition() const {
return 0;
}
private:
DISALLOW_COPY_AND_ASSIGN(BinaryDictionaryInfo);
const uint8_t *const mDictBuf;
const BinaryDictionaryFormat::FORMAT_VERSION mFormat;
const uint8_t *const mDictRoot;
};
}
#endif /* LATINIME_BINARY_DICTIONARY_INFO_H */

View File

@ -0,0 +1,24 @@
/*
* Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "suggest/core/dictionary/byte_array_utils.h"
namespace latinime {
const uint8_t ByteArrayUtils::MINIMAL_ONE_BYTE_CHARACTER_VALUE = 0x20;
const uint8_t ByteArrayUtils::CHARACTER_ARRAY_TERMINATOR = 0x1F;
} // namespace latinime

View File

@ -0,0 +1,148 @@
/*
* Copyright (C) 2013, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef LATINIME_BYTE_ARRAY_UTILS_H
#define LATINIME_BYTE_ARRAY_UTILS_H
#include <stdint.h>
#include "defines.h"
namespace latinime {
/**
* Utility methods for reading byte arrays.
*/
class ByteArrayUtils {
public:
/**
* Integer
*
* Each method read a corresponding size integer in a big endian manner.
*/
static AK_FORCE_INLINE uint32_t readUint32(const uint8_t *const buffer, const int pos) {
return (buffer[pos] << 24) ^ (buffer[pos + 1] << 16)
^ (buffer[pos + 2] << 8) ^ buffer[pos + 3];
}
static AK_FORCE_INLINE uint32_t readUint24(const uint8_t *const buffer, const int pos) {
return (buffer[pos] << 16) ^ (buffer[pos + 1] << 8) ^ buffer[pos + 2];
}
static AK_FORCE_INLINE uint16_t readUint16(const uint8_t *const buffer, const int pos) {
return (buffer[pos] << 8) ^ buffer[pos + 1];
}
static AK_FORCE_INLINE uint8_t readUint8(const uint8_t *const buffer, const int pos) {
return buffer[pos];
}
static AK_FORCE_INLINE uint32_t readUint32andAdvancePosition(
const uint8_t *const buffer, int *const pos) {
const uint32_t value = readUint32(buffer, *pos);
*pos += 4;
return value;
}
static AK_FORCE_INLINE uint32_t readUint24andAdvancePosition(
const uint8_t *const buffer, int *const pos) {
const uint32_t value = readUint24(buffer, *pos);
*pos += 3;
return value;
}
static AK_FORCE_INLINE uint16_t readUint16andAdvancePosition(
const uint8_t *const buffer, int *const pos) {
const uint16_t value = readUint16(buffer, *pos);
*pos += 2;
return value;
}
static AK_FORCE_INLINE uint8_t readUint8andAdvancePosition(
const uint8_t *const buffer, int *const pos) {
return buffer[(*pos)++];
}
/**
* Code Point
*
* 1 byte = bbbbbbbb match
* case 000xxxxx: xxxxx << 16 + next byte << 8 + next byte
* else: if 00011111 (= 0x1F) : this is the terminator. This is a relevant choice because
* unicode code points range from 0 to 0x10FFFF, so any 3-byte value starting with
* 00011111 would be outside unicode.
* else: iso-latin-1 code
* This allows for the whole unicode range to be encoded, including chars outside of
* the BMP. Also everything in the iso-latin-1 charset is only 1 byte, except control
* characters which should never happen anyway (and still work, but take 3 bytes).
*/
static AK_FORCE_INLINE int readCodePoint(const uint8_t *const buffer, const int pos) {
int p = pos;
return readCodePointAndAdvancePosition(buffer, &p);
}
static AK_FORCE_INLINE int readCodePointAndAdvancePosition(
const uint8_t *const buffer, int *const pos) {
const uint8_t firstByte = readUint8(buffer, *pos);
if (firstByte < MINIMAL_ONE_BYTE_CHARACTER_VALUE) {
if (firstByte == CHARACTER_ARRAY_TERMINATOR) {
*pos += 1;
return NOT_A_CODE_POINT;
} else {
return readUint24andAdvancePosition(buffer, pos);
}
} else {
*pos += 1;
return firstByte;
}
}
/**
* String (array of code points)
*
* Reads code points until the terminator is found.
*/
// Returns the length of the string.
static int readStringAndAdvancePosition(const uint8_t *const buffer, int *const pos,
int *const outBuffer, const int maxLength) {
int length = 0;
int codePoint = readCodePointAndAdvancePosition(buffer, pos);
while (NOT_A_CODE_POINT != codePoint && length < maxLength) {
outBuffer[length++] = codePoint;
codePoint = readCodePointAndAdvancePosition(buffer, pos);
}
return length;
}
// Advances the position and returns the length of the string.
static int advancePositionToBehindString(
const uint8_t *const buffer, int *const pos, const int maxLength) {
int length = 0;
int codePoint = readCodePointAndAdvancePosition(buffer, pos);
while (NOT_A_CODE_POINT != codePoint && length < maxLength) {
codePoint = readCodePointAndAdvancePosition(buffer, pos);
}
return length;
}
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(ByteArrayUtils);
static const uint8_t MINIMAL_ONE_BYTE_CHARACTER_VALUE;
static const uint8_t CHARACTER_ARRAY_TERMINATOR;
};
} // namespace latinime
#endif /* LATINIME_BYTE_ARRAY_UTILS_H */

View File

@ -34,13 +34,11 @@
namespace latinime {
Dictionary::Dictionary(void *dict, int dictSize, int mmapFd, int dictBufAdjust)
: mDict(static_cast<unsigned char *>(dict)),
mOffsetDict((static_cast<unsigned char *>(dict))
+ BinaryFormat::getHeaderSize(mDict, dictSize)),
: mBinaryDicitonaryInfo(static_cast<const uint8_t *>(dict), dictSize),
mDictSize(dictSize), mMmapFd(mmapFd), mDictBufAdjust(dictBufAdjust),
mUnigramDictionary(new UnigramDictionary(mOffsetDict,
BinaryFormat::getFlags(mDict, dictSize))),
mBigramDictionary(new BigramDictionary(mOffsetDict)),
mUnigramDictionary(new UnigramDictionary(&mBinaryDicitonaryInfo,
BinaryFormat::getFlags(mBinaryDicitonaryInfo.getDictBuf(), dictSize))),
mBigramDictionary(new BigramDictionary(&mBinaryDicitonaryInfo)),
mGestureSuggest(new Suggest(GestureSuggestPolicyFactory::getGestureSuggestPolicy())),
mTypingSuggest(new Suggest(TypingSuggestPolicyFactory::getTypingSuggestPolicy())) {
}

View File

@ -20,6 +20,7 @@
#include <stdint.h>
#include "defines.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
namespace latinime {
@ -64,11 +65,8 @@ class Dictionary {
int getProbability(const int *word, int length) const;
bool isValidBigram(const int *word1, int length1, const int *word2, int length2) const;
const uint8_t *getDict() const { // required to release dictionary buffer
return mDict;
}
const uint8_t *getOffsetDict() const {
return mOffsetDict;
const BinaryDictionaryInfo *getBinaryDictionaryInfo() const {
return &mBinaryDicitonaryInfo;
}
int getDictSize() const { return mDictSize; }
int getMmapFd() const { return mMmapFd; }
@ -78,9 +76,8 @@ class Dictionary {
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(Dictionary);
const uint8_t *mDict;
const uint8_t *mOffsetDict;
const BinaryDictionaryInfo mBinaryDicitonaryInfo;
// Used only for the mmap version of dictionary loading, but we use these as dummy variables
// also for the malloc version.
const int mDictSize;

View File

@ -17,10 +17,9 @@
#ifndef LATINIME_MULTI_BIGRAM_MAP_H
#define LATINIME_MULTI_BIGRAM_MAP_H
#include <stdint.h>
#include "defines.h"
#include "hash_map_compat.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
namespace latinime {
@ -35,20 +34,20 @@ class MultiBigramMap {
// Look up the bigram probability for the given word pair from the cached bigram maps.
// Also caches the bigrams if there is space remaining and they have not been cached already.
int getBigramProbability(const uint8_t *const dicRoot, const int wordPosition,
const int nextWordPosition, const int unigramProbability) {
int getBigramProbability(const BinaryDictionaryInfo *const binaryDicitonaryInfo,
const int wordPosition, const int nextWordPosition, const int unigramProbability) {
hash_map_compat<int, BigramMap>::const_iterator mapPosition =
mBigramMaps.find(wordPosition);
if (mapPosition != mBigramMaps.end()) {
return mapPosition->second.getBigramProbability(nextWordPosition, unigramProbability);
}
if (mBigramMaps.size() < MAX_CACHED_PREV_WORDS_IN_BIGRAM_MAP) {
addBigramsForWordPosition(dicRoot, wordPosition);
addBigramsForWordPosition(binaryDicitonaryInfo, wordPosition);
return mBigramMaps[wordPosition].getBigramProbability(
nextWordPosition, unigramProbability);
}
return BinaryFormat::getBigramProbability(
dicRoot, wordPosition, nextWordPosition, unigramProbability);
return BinaryFormat::getBigramProbability(binaryDicitonaryInfo->getDictRoot(),
wordPosition, nextWordPosition, unigramProbability);
}
void clear() {
@ -63,8 +62,9 @@ class MultiBigramMap {
BigramMap() : mBigramMap(DEFAULT_HASH_MAP_SIZE_FOR_EACH_BIGRAM_MAP) {}
~BigramMap() {}
void init(const uint8_t *const dicRoot, int position) {
BinaryFormat::fillBigramProbabilityToHashMap(dicRoot, position, &mBigramMap);
void init(const BinaryDictionaryInfo *const binaryDicitonaryInfo, const int position) {
BinaryFormat::fillBigramProbabilityToHashMap(
binaryDicitonaryInfo->getDictRoot(), position, &mBigramMap);
}
inline int getBigramProbability(const int nextWordPosition, const int unigramProbability)
@ -78,8 +78,9 @@ class MultiBigramMap {
hash_map_compat<int, int> mBigramMap;
};
void addBigramsForWordPosition(const uint8_t *const dicRoot, const int position) {
mBigramMaps[position].init(dicRoot, position);
void addBigramsForWordPosition(const BinaryDictionaryInfo *const binaryDicitonaryInfo,
const int position) {
mBigramMaps[position].init(binaryDicitonaryInfo, position);
}
hash_map_compat<int, BigramMap> mBigramMaps;

View File

@ -19,6 +19,7 @@
#include <stdint.h>
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
namespace latinime {
@ -32,8 +33,9 @@ class TerminalAttributes {
public:
class ShortcutIterator {
public:
ShortcutIterator(const uint8_t *dict, const int pos, const uint8_t flags)
: mDict(dict), mPos(pos),
ShortcutIterator(const BinaryDictionaryInfo *const binaryDictionaryInfo, const int pos,
const uint8_t flags)
: mBinaryDicitionaryInfo(binaryDictionaryInfo), mPos(pos),
mHasNextShortcutTarget(0 != (flags & BinaryFormat::FLAG_HAS_SHORTCUT_TARGETS)) {
}
@ -44,11 +46,13 @@ class TerminalAttributes {
// Gets the shortcut target itself as an int string. For parameters and return value
// see BinaryFormat::getWordAtAddress.
inline int getNextShortcutTarget(const int maxDepth, int *outWord, int *outFreq) {
const int shortcutFlags = BinaryFormat::getFlagsAndForwardPointer(mDict, &mPos);
const int shortcutFlags = BinaryFormat::getFlagsAndForwardPointer(
mBinaryDicitionaryInfo->getDictRoot(), &mPos);
mHasNextShortcutTarget = 0 != (shortcutFlags & BinaryFormat::FLAG_ATTRIBUTE_HAS_NEXT);
unsigned int i;
for (i = 0; i < MAX_WORD_LENGTH; ++i) {
const int codePoint = BinaryFormat::getCodePointAndForwardPointer(mDict, &mPos);
const int codePoint = BinaryFormat::getCodePointAndForwardPointer(
mBinaryDicitionaryInfo->getDictRoot(), &mPos);
if (NOT_A_CODE_POINT == codePoint) break;
outWord[i] = codePoint;
}
@ -57,19 +61,21 @@ class TerminalAttributes {
}
private:
const uint8_t *const mDict;
const BinaryDictionaryInfo *const mBinaryDicitionaryInfo;
int mPos;
bool mHasNextShortcutTarget;
};
TerminalAttributes(const uint8_t *const dict, const uint8_t flags, const int pos)
: mDict(dict), mFlags(flags), mStartPos(pos) {
TerminalAttributes(const BinaryDictionaryInfo *const binaryDicitonaryInfo,
const uint8_t flags, const int pos)
: mBinaryDicitionaryInfo(binaryDicitonaryInfo), mFlags(flags), mStartPos(pos) {
}
inline ShortcutIterator getShortcutIterator() const {
// The size of the shortcuts is stored here so that the whole shortcut chunk can be
// skipped quickly, so we ignore it.
return ShortcutIterator(mDict, mStartPos + BinaryFormat::SHORTCUT_LIST_SIZE_SIZE, mFlags);
return ShortcutIterator(
mBinaryDicitionaryInfo, mStartPos + BinaryFormat::SHORTCUT_LIST_SIZE_SIZE, mFlags);
}
bool isBlacklistedOrNotAWord() const {
@ -78,7 +84,7 @@ class TerminalAttributes {
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(TerminalAttributes);
const uint8_t *const mDict;
const BinaryDictionaryInfo *const mBinaryDicitionaryInfo;
const uint8_t mFlags;
const int mStartPos;
};

View File

@ -142,7 +142,7 @@ static inline void profile(const CorrectionType correctionType, DicNode *const n
case CT_TERMINAL: {
const float languageImprobability =
DicNodeUtils::getBigramNodeImprobability(
traverseSession->getOffsetDict(), dicNode, multiBigramMap);
traverseSession->getBinaryDictionaryInfo(), dicNode, multiBigramMap);
return weighting->getTerminalLanguageCost(traverseSession, dicNode, languageImprobability);
}
case CT_NEW_WORD_SPACE_SUBSTITUTION:

View File

@ -20,6 +20,7 @@
#include "dic_traverse_wrapper.h"
#include "jni.h"
#include "suggest/core/dicnode/dic_node_utils.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
#include "suggest/core/dictionary/dictionary.h"
@ -65,7 +66,8 @@ static TraverseSessionFactoryRegisterer traverseSessionFactoryRegisterer;
void DicTraverseSession::init(const Dictionary *const dictionary, const int *prevWord,
int prevWordLength, const SuggestOptions *const suggestOptions) {
mDictionary = dictionary;
mMultiWordCostMultiplier = BinaryFormat::getMultiWordCostMultiplier(mDictionary->getDict(),
mMultiWordCostMultiplier = BinaryFormat::getMultiWordCostMultiplier(
mDictionary->getBinaryDictionaryInfo()->getDictBuf(),
mDictionary->getDictSize());
mSuggestOptions = suggestOptions;
if (!prevWord) {
@ -73,12 +75,14 @@ void DicTraverseSession::init(const Dictionary *const dictionary, const int *pre
return;
}
// TODO: merge following similar calls to getTerminalPosition into one case-insensitive call.
mPrevWordPos = BinaryFormat::getTerminalPosition(dictionary->getOffsetDict(), prevWord,
mPrevWordPos = BinaryFormat::getTerminalPosition(
dictionary->getBinaryDictionaryInfo()->getDictRoot(), prevWord,
prevWordLength, false /* forceLowerCaseSearch */);
if (mPrevWordPos == NOT_VALID_WORD) {
// Check bigrams for lower-cased previous word if original was not found. Useful for
// auto-capitalized words like "The [current_word]".
mPrevWordPos = BinaryFormat::getTerminalPosition(dictionary->getOffsetDict(), prevWord,
mPrevWordPos = BinaryFormat::getTerminalPosition(
dictionary->getBinaryDictionaryInfo()->getDictRoot(), prevWord,
prevWordLength, true /* forceLowerCaseSearch */);
}
}
@ -93,8 +97,8 @@ void DicTraverseSession::setupForGetSuggestions(const ProximityInfo *pInfo,
maxSpatialDistance, maxPointerCount);
}
const uint8_t *DicTraverseSession::getOffsetDict() const {
return mDictionary->getOffsetDict();
const BinaryDictionaryInfo *DicTraverseSession::getBinaryDictionaryInfo() const {
return mDictionary->getBinaryDictionaryInfo();
}
int DicTraverseSession::getDictFlags() const {

View File

@ -28,6 +28,7 @@
namespace latinime {
class BinaryDictionaryInfo;
class Dictionary;
class ProximityInfo;
class SuggestOptions;
@ -56,7 +57,7 @@ class DicTraverseSession {
void resetCache(const int nextActiveCacheSize, const int maxWords);
// TODO: Remove
const uint8_t *getOffsetDict() const;
const BinaryDictionaryInfo *getBinaryDictionaryInfo() const;
int getDictFlags() const;
//--------------------

View File

@ -105,8 +105,8 @@ void Suggest::initializeSearch(DicTraverseSession *traverseSession, int commitPo
traverseSession->resetCache(TRAVERSAL->getMaxCacheSize(), MAX_RESULTS);
// Create a new dic node here
DicNode rootNode;
DicNodeUtils::initAsRoot(traverseSession->getDicRootPos(),
traverseSession->getOffsetDict(), traverseSession->getPrevWordPos(), &rootNode);
DicNodeUtils::initAsRoot(traverseSession->getBinaryDictionaryInfo(),
traverseSession->getPrevWordPos(), &rootNode);
traverseSession->getDicTraverseCache()->copyPushActive(&rootNode);
}
}
@ -158,7 +158,7 @@ int Suggest::outputSuggestions(DicTraverseSession *traverseSession, int *frequen
terminalIndex, doubleLetterTerminalIndex, doubleLetterLevel);
const float compoundDistance = terminalDicNode->getCompoundDistance(languageWeight)
+ doubleLetterCost;
const TerminalAttributes terminalAttributes(traverseSession->getOffsetDict(),
const TerminalAttributes terminalAttributes(traverseSession->getBinaryDictionaryInfo(),
terminalDicNode->getFlags(), terminalDicNode->getAttributesPos());
const bool isPossiblyOffensiveWord = terminalDicNode->getProbability() <= 0;
const bool isExactMatch = terminalDicNode->isExactMatch();
@ -284,7 +284,7 @@ void Suggest::expandCurrentDicNodes(DicTraverseSession *traverseSession) const {
}
DicNodeUtils::getAllChildDicNodes(
&dicNode, traverseSession->getOffsetDict(), &childDicNodes);
&dicNode, traverseSession->getBinaryDictionaryInfo(), &childDicNodes);
const int childDicNodesSize = childDicNodes.getSizeAndLock();
for (int i = 0; i < childDicNodesSize; ++i) {
@ -431,7 +431,8 @@ void Suggest::processDicNodeAsDigraph(DicTraverseSession *traverseSession,
void Suggest::processDicNodeAsOmission(
DicTraverseSession *traverseSession, DicNode *dicNode) const {
DicNodeVector childDicNodes;
DicNodeUtils::getAllChildDicNodes(dicNode, traverseSession->getOffsetDict(), &childDicNodes);
DicNodeUtils::getAllChildDicNodes(
dicNode, traverseSession->getBinaryDictionaryInfo(), &childDicNodes);
const int size = childDicNodes.getSizeAndLock();
for (int i = 0; i < size; i++) {
@ -456,7 +457,7 @@ void Suggest::processDicNodeAsInsertion(DicTraverseSession *traverseSession,
DicNode *dicNode) const {
const int16_t pointIndex = dicNode->getInputIndex(0);
DicNodeVector childDicNodes;
DicNodeUtils::getProximityChildDicNodes(dicNode, traverseSession->getOffsetDict(),
DicNodeUtils::getProximityChildDicNodes(dicNode, traverseSession->getBinaryDictionaryInfo(),
traverseSession->getProximityInfoState(0), pointIndex + 1, true, &childDicNodes);
const int size = childDicNodes.getSizeAndLock();
for (int i = 0; i < size; i++) {
@ -474,14 +475,14 @@ void Suggest::processDicNodeAsTransposition(DicTraverseSession *traverseSession,
DicNode *dicNode) const {
const int16_t pointIndex = dicNode->getInputIndex(0);
DicNodeVector childDicNodes1;
DicNodeUtils::getProximityChildDicNodes(dicNode, traverseSession->getOffsetDict(),
DicNodeUtils::getProximityChildDicNodes(dicNode, traverseSession->getBinaryDictionaryInfo(),
traverseSession->getProximityInfoState(0), pointIndex + 1, false, &childDicNodes1);
const int childSize1 = childDicNodes1.getSizeAndLock();
for (int i = 0; i < childSize1; i++) {
if (childDicNodes1[i]->hasChildren()) {
DicNodeVector childDicNodes2;
DicNodeUtils::getProximityChildDicNodes(
childDicNodes1[i], traverseSession->getOffsetDict(),
childDicNodes1[i], traverseSession->getBinaryDictionaryInfo(),
traverseSession->getProximityInfoState(0), pointIndex, false, &childDicNodes2);
const int childSize2 = childDicNodes2.getSizeAndLock();
for (int j = 0; j < childSize2; j++) {
@ -521,8 +522,8 @@ void Suggest::createNextWordDicNode(DicTraverseSession *traverseSession, DicNode
// Create a non-cached node here.
DicNode newDicNode;
DicNodeUtils::initAsRootWithPreviousWord(traverseSession->getDicRootPos(),
traverseSession->getOffsetDict(), dicNode, &newDicNode);
DicNodeUtils::initAsRootWithPreviousWord(
traverseSession->getBinaryDictionaryInfo(), dicNode, &newDicNode);
const CorrectionType correctionType = spaceSubstitution ?
CT_NEW_WORD_SPACE_SUBSTITUTION : CT_NEW_WORD_SPACE_OMITTION;
Weighting::addCostAndForwardInputIndex(WEIGHTING, correctionType, traverseSession, dicNode,

View File

@ -146,7 +146,7 @@ class TypingWeighting : public Weighting {
float getNewWordBigramCost(const DicTraverseSession *const traverseSession,
const DicNode *const dicNode,
MultiBigramMap *const multiBigramMap) const {
return DicNodeUtils::getBigramNodeImprobability(traverseSession->getOffsetDict(),
return DicNodeUtils::getBigramNodeImprobability(traverseSession->getBinaryDictionaryInfo(),
dicNode, multiBigramMap) * ScoringParams::DISTANCE_WEIGHT_LANGUAGE;
}

View File

@ -19,6 +19,7 @@
#define LOG_TAG "LatinIME: unigram_dictionary.cpp"
#include "defines.h"
#include "suggest/core/dictionary/binary_dictionary_info.h"
#include "suggest/core/dictionary/binary_format.h"
#include "suggest/core/dictionary/char_utils.h"
#include "suggest/core/dictionary/dictionary.h"
@ -33,8 +34,9 @@
namespace latinime {
// TODO: check the header
UnigramDictionary::UnigramDictionary(const uint8_t *const streamStart, const unsigned int dictFlags)
: DICT_ROOT(streamStart), ROOT_POS(0),
UnigramDictionary::UnigramDictionary(
const BinaryDictionaryInfo *const binaryDicitonaryInfo, const uint8_t dictFlags)
: mBinaryDicitonaryInfo(binaryDicitonaryInfo),
MAX_DIGRAPH_SEARCH_DEPTH(DEFAULT_MAX_DIGRAPH_SEARCH_DEPTH), DICT_FLAGS(dictFlags) {
if (DEBUG_DICT) {
AKLOGI("UnigramDictionary - constructor");
@ -316,9 +318,10 @@ void UnigramDictionary::getSuggestionCandidates(const bool useFullEditDistance,
correction->setCorrectionParams(0, 0, 0,
-1 /* spaceProximityPos */, -1 /* missingSpacePos */, useFullEditDistance,
doAutoCompletion, maxErrors);
int rootPosition = ROOT_POS;
int rootPosition = mBinaryDicitonaryInfo->getRootPosition();
// Get the number of children of root, then increment the position
int childCount = BinaryFormat::getGroupCountAndForwardPointer(DICT_ROOT, &rootPosition);
int childCount = BinaryFormat::getGroupCountAndForwardPointer(
mBinaryDicitonaryInfo->getDictRoot(), &rootPosition);
int outputIndex = 0;
correction->initCorrectionState(rootPosition, childCount, (inputSize <= 0));
@ -748,7 +751,7 @@ int UnigramDictionary::getMostProbableWordLikeInner(const int *const inWord, con
int newWord[MAX_WORD_LENGTH];
int depth = 0;
int maxFreq = -1;
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDicitonaryInfo->getDictRoot();
int stackChildCount[MAX_WORD_LENGTH];
int stackInputIndex[MAX_WORD_LENGTH];
int stackSiblingPos[MAX_WORD_LENGTH];
@ -807,7 +810,7 @@ int UnigramDictionary::getMostProbableWordLikeInner(const int *const inWord, con
}
int UnigramDictionary::getProbability(const int *const inWord, const int length) const {
const uint8_t *const root = DICT_ROOT;
const uint8_t *const root = mBinaryDicitonaryInfo->getDictRoot();
int pos = BinaryFormat::getTerminalPosition(root, inWord, length,
false /* forceLowerCaseSearch */);
if (NOT_VALID_WORD == pos) {
@ -824,7 +827,7 @@ int UnigramDictionary::getProbability(const int *const inWord, const int length)
if (hasMultipleChars) {
pos = BinaryFormat::skipOtherCharacters(root, pos);
} else {
BinaryFormat::getCodePointAndForwardPointer(DICT_ROOT, &pos);
BinaryFormat::getCodePointAndForwardPointer(root, &pos);
}
const int unigramProbability = BinaryFormat::readProbabilityWithoutMovingPointer(root, pos);
return unigramProbability;
@ -866,7 +869,8 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// - FLAG_HAS_MULTIPLE_CHARS: whether this node has multiple char or not.
// - FLAG_IS_TERMINAL: whether this node is a terminal or not (it may still have children)
// - FLAG_HAS_BIGRAMS: whether this node has bigrams or not
const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(DICT_ROOT, &pos);
const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(
mBinaryDicitonaryInfo->getDictRoot(), &pos);
const bool hasMultipleChars = (0 != (BinaryFormat::FLAG_HAS_MULTIPLE_CHARS & flags));
const bool isTerminalNode = (0 != (BinaryFormat::FLAG_IS_TERMINAL & flags));
@ -877,7 +881,8 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// else if FLAG_IS_TERMINAL: the probability
// else if MASK_GROUP_ADDRESS_TYPE is not NONE: the children address
// Note that you can't have a node that both is not a terminal and has no children.
int c = BinaryFormat::getCodePointAndForwardPointer(DICT_ROOT, &pos);
int c = BinaryFormat::getCodePointAndForwardPointer(
mBinaryDicitonaryInfo->getDictRoot(), &pos);
ASSERT(NOT_A_CODE_POINT != c);
// We are going to loop through each character and make it look like it's a different
@ -891,8 +896,8 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// We prefetch the next char. If 'c' is the last char of this node, we will have
// NOT_A_CODE_POINT in the next char. From this we can decide whether this virtual node
// should behave as a terminal or not and whether we have children.
const int nextc = hasMultipleChars
? BinaryFormat::getCodePointAndForwardPointer(DICT_ROOT, &pos) : NOT_A_CODE_POINT;
const int nextc = hasMultipleChars ? BinaryFormat::getCodePointAndForwardPointer(
mBinaryDicitonaryInfo->getDictRoot(), &pos) : NOT_A_CODE_POINT;
const bool isLastChar = (NOT_A_CODE_POINT == nextc);
// If there are more chars in this nodes, then this virtual node is not a terminal.
// If we are on the last char, this virtual node is a terminal if this node is.
@ -912,11 +917,11 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// We don't have to output other values because we return false, as in
// "don't traverse children".
if (!isLastChar) {
pos = BinaryFormat::skipOtherCharacters(DICT_ROOT, pos);
pos = BinaryFormat::skipOtherCharacters(mBinaryDicitonaryInfo->getDictRoot(), pos);
}
pos = BinaryFormat::skipProbability(flags, pos);
*nextSiblingPosition =
BinaryFormat::skipChildrenPosAndAttributes(DICT_ROOT, flags, pos);
*nextSiblingPosition = BinaryFormat::skipChildrenPosAndAttributes(
mBinaryDicitonaryInfo->getDictRoot(), flags, pos);
return false;
}
@ -929,11 +934,11 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
if (isTerminalNode) {
// The probability should be here, because we come here only if this is actually
// a terminal node, and we are on its last char.
const int unigramProbability =
BinaryFormat::readProbabilityWithoutMovingPointer(DICT_ROOT, pos);
const int unigramProbability = BinaryFormat::readProbabilityWithoutMovingPointer(
mBinaryDicitonaryInfo->getDictRoot(), pos);
const int childrenAddressPos = BinaryFormat::skipProbability(flags, pos);
const int attributesPos = BinaryFormat::skipChildrenPosition(flags, childrenAddressPos);
TerminalAttributes terminalAttributes(DICT_ROOT, flags, attributesPos);
TerminalAttributes terminalAttributes(mBinaryDicitonaryInfo, flags, attributesPos);
// bigramMap contains the bigram frequencies indexed by addresses for fast lookup.
// bigramFilter is a bloom filter of said frequencies for even faster rejection.
const int probability = ProbabilityUtils::getProbability(
@ -953,16 +958,16 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// remaining char in this group for there can't be any.
if (!hasChildren) {
pos = BinaryFormat::skipProbability(flags, pos);
*nextSiblingPosition =
BinaryFormat::skipChildrenPosAndAttributes(DICT_ROOT, flags, pos);
*nextSiblingPosition = BinaryFormat::skipChildrenPosAndAttributes(
mBinaryDicitonaryInfo->getDictRoot(), flags, pos);
return false;
}
// Optimization: Prune out words that are too long compared to how much was typed.
if (correction->needsToPrune()) {
pos = BinaryFormat::skipProbability(flags, pos);
*nextSiblingPosition =
BinaryFormat::skipChildrenPosAndAttributes(DICT_ROOT, flags, pos);
*nextSiblingPosition = BinaryFormat::skipChildrenPosAndAttributes(
mBinaryDicitonaryInfo->getDictRoot(), flags, pos);
if (DEBUG_DICT_FULL) {
AKLOGI("Traversing was pruned.");
}
@ -981,9 +986,12 @@ bool UnigramDictionary::processCurrentNode(const int initialPos,
// Once this is read, we still need to output the number of nodes in the immediate children of
// this node, so we read and output it before returning true, as in "please traverse children".
pos = BinaryFormat::skipProbability(flags, pos);
int childrenPos = BinaryFormat::readChildrenPosition(DICT_ROOT, flags, pos);
*nextSiblingPosition = BinaryFormat::skipChildrenPosAndAttributes(DICT_ROOT, flags, pos);
*newCount = BinaryFormat::getGroupCountAndForwardPointer(DICT_ROOT, &childrenPos);
int childrenPos = BinaryFormat::readChildrenPosition(
mBinaryDicitonaryInfo->getDictRoot(), flags, pos);
*nextSiblingPosition = BinaryFormat::skipChildrenPosAndAttributes(
mBinaryDicitonaryInfo->getDictRoot(), flags, pos);
*newCount = BinaryFormat::getGroupCountAndForwardPointer(
mBinaryDicitonaryInfo->getDictRoot(), &childrenPos);
*newChildrenPosition = childrenPos;
return true;
}

View File

@ -25,6 +25,7 @@
namespace latinime {
class BinaryDictionaryInfo;
class Correction;
class ProximityInfo;
class TerminalAttributes;
@ -39,7 +40,10 @@ class UnigramDictionary {
static const int FLAG_MULTIPLE_SUGGEST_ABORT = 0;
static const int FLAG_MULTIPLE_SUGGEST_SKIP = 1;
static const int FLAG_MULTIPLE_SUGGEST_CONTINUE = 2;
UnigramDictionary(const uint8_t *const streamStart, const unsigned int dictFlags);
UnigramDictionary(const BinaryDictionaryInfo *const binaryDicitonaryInfo,
const uint8_t dictFlags);
virtual ~UnigramDictionary();
int getProbability(const int *const inWord, const int length) const;
int getBigramPosition(int pos, int *word, int offset, int length) const;
int getSuggestions(ProximityInfo *proximityInfo, const int *xcoordinates,
@ -48,7 +52,6 @@ class UnigramDictionary {
const bool useFullEditDistance, int *outWords, int *frequencies,
int *outputTypes) const;
int getDictFlags() const { return DICT_FLAGS; }
virtual ~UnigramDictionary();
private:
DISALLOW_IMPLICIT_CONSTRUCTORS(UnigramDictionary);
@ -108,8 +111,7 @@ class UnigramDictionary {
const int outputWordLength, int *freqArray, int *wordLengthArray,
int *outputWord) const;
const uint8_t *const DICT_ROOT;
const int ROOT_POS;
const BinaryDictionaryInfo *const mBinaryDicitonaryInfo;
const int MAX_DIGRAPH_SEARCH_DEPTH;
const int DICT_FLAGS;
};