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Detach bigram functionarities from unigram_dictionary

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Change-Id: Ie35164a5f293e5370885a1ba13d6ed7caf6000ec
This commit is contained in:
satok 2010-12-02 18:11:54 +09:00
parent 9fee221248
commit 18c28f431e
6 changed files with 280 additions and 290 deletions
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231
native/src/bigram_dictionary.cpp
View File

@ -15,19 +15,240 @@
** limitations under the License. ** limitations under the License.
*/ */
#include <string.h>
#define LOG_TAG "LatinIME: bigram_dictionary.cpp" #define LOG_TAG "LatinIME: bigram_dictionary.cpp"
#include "bigram_dictionary.h" #include "bigram_dictionary.h"
#include "dictionary.h"
namespace latinime { namespace latinime {
BigramDictionary::BigramDictionary(void *dict, int typedLetterMultiplier, int fullWordMultiplier, BigramDictionary::BigramDictionary(const unsigned char *dict, int maxWordLength,
int maxWordLength, int maxWords, int maxAlternatives, Dictionary *parentDictionary) int maxAlternatives, const bool isLatestDictVersion, const bool hasBigram,
{ Dictionary *parentDictionary)
: DICT(dict), MAX_WORD_LENGTH(maxWordLength),
MAX_ALTERNATIVES(maxAlternatives), IS_LATEST_DICT_VERSION(isLatestDictVersion),
HAS_BIGRAM(hasBigram), mParentDictionary(parentDictionary) {
LOGI("BigramDictionary - constructor");
LOGI("Has Bigram : %d \n", hasBigram);
} }
BigramDictionary::~BigramDictionary() BigramDictionary::~BigramDictionary() {
{
} }
bool BigramDictionary::addWordBigram(unsigned short *word, int length, int frequency) {
word[length] = 0;
if (DEBUG_DICT) {
char s[length + 1];
for (int i = 0; i <= length; i++) s[i] = word[i];
LOGI("Bigram: Found word = %s, freq = %d : \n", s, frequency);
}
// Find the right insertion point
int insertAt = 0;
while (insertAt < mMaxBigrams) {
if (frequency > mBigramFreq[insertAt] || (mBigramFreq[insertAt] == frequency
&& length < Dictionary::wideStrLen(mBigramChars + insertAt * MAX_WORD_LENGTH))) {
break;
}
insertAt++;
}
LOGI("Bigram: InsertAt -> %d maxBigrams: %d\n", insertAt, mMaxBigrams);
if (insertAt < mMaxBigrams) {
memmove((char*) mBigramFreq + (insertAt + 1) * sizeof(mBigramFreq[0]),
(char*) mBigramFreq + insertAt * sizeof(mBigramFreq[0]),
(mMaxBigrams - insertAt - 1) * sizeof(mBigramFreq[0]));
mBigramFreq[insertAt] = frequency;
memmove((char*) mBigramChars + (insertAt + 1) * MAX_WORD_LENGTH * sizeof(short),
(char*) mBigramChars + (insertAt ) * MAX_WORD_LENGTH * sizeof(short),
(mMaxBigrams - insertAt - 1) * sizeof(short) * MAX_WORD_LENGTH);
unsigned short *dest = mBigramChars + (insertAt ) * MAX_WORD_LENGTH;
while (length--) {
*dest++ = *word++;
}
*dest = 0; // NULL terminate
if (DEBUG_DICT) LOGI("Bigram: Added word at %d\n", insertAt);
return true;
}
return false;
}
int BigramDictionary::getBigramAddress(int *pos, bool advance) {
int address = 0;
address += (DICT[*pos] & 0x3F) << 16;
address += (DICT[*pos + 1] & 0xFF) << 8;
address += (DICT[*pos + 2] & 0xFF);
if (advance) {
*pos += 3;
}
return address;
}
int BigramDictionary::getBigramFreq(int *pos) {
int freq = DICT[(*pos)++] & FLAG_BIGRAM_FREQ;
return freq;
}
int BigramDictionary::getBigrams(unsigned short *prevWord, int prevWordLength, int *codes,
int codesSize, unsigned short *bigramChars, int *bigramFreq, int maxWordLength,
int maxBigrams, int maxAlternatives) {
mBigramFreq = bigramFreq;
mBigramChars = bigramChars;
mInputCodes = codes;
mInputLength = codesSize;
mMaxBigrams = maxBigrams;
if (HAS_BIGRAM && IS_LATEST_DICT_VERSION) {
int pos = mParentDictionary->isValidWordRec(
DICTIONARY_HEADER_SIZE, prevWord, 0, prevWordLength);
LOGI("Pos -> %d\n", pos);
if (pos < 0) {
return 0;
}
int bigramCount = 0;
int bigramExist = (DICT[pos] & FLAG_BIGRAM_READ);
if (bigramExist > 0) {
int nextBigramExist = 1;
while (nextBigramExist > 0 && bigramCount < maxBigrams) {
int bigramAddress = getBigramAddress(&pos, true);
int frequency = (FLAG_BIGRAM_FREQ & DICT[pos]);
// search for all bigrams and store them
searchForTerminalNode(bigramAddress, frequency);
nextBigramExist = (DICT[pos++] & FLAG_BIGRAM_CONTINUED);
bigramCount++;
}
}
return bigramCount;
}
return 0;
}
void BigramDictionary::searchForTerminalNode(int addressLookingFor, int frequency) {
// track word with such address and store it in an array
unsigned short word[MAX_WORD_LENGTH];
int pos;
int followDownBranchAddress = DICTIONARY_HEADER_SIZE;
bool found = false;
char followingChar = ' ';
int depth = -1;
while(!found) {
bool followDownAddressSearchStop = false;
bool firstAddress = true;
bool haveToSearchAll = true;
if (depth >= 0) {
word[depth] = (unsigned short) followingChar;
}
pos = followDownBranchAddress; // pos start at count
int count = DICT[pos] & 0xFF;
LOGI("count - %d\n",count);
pos++;
for (int i = 0; i < count; i++) {
// pos at data
pos++;
// pos now at flag
if (!getFirstBitOfByte(&pos)) { // non-terminal
if (!followDownAddressSearchStop) {
int addr = getBigramAddress(&pos, false);
if (addr > addressLookingFor) {
followDownAddressSearchStop = true;
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
} else if (!haveToSearchAll) {
break;
}
} else {
followDownBranchAddress = addr;
followingChar = (char)(0xFF & DICT[pos-1]);
if (firstAddress) {
firstAddress = false;
haveToSearchAll = false;
}
}
}
pos += 3;
} else if (getFirstBitOfByte(&pos)) { // terminal
if (addressLookingFor == (pos-1)) { // found !!
depth++;
word[depth] = (0xFF & DICT[pos-1]);
found = true;
break;
}
if (getSecondBitOfByte(&pos)) { // address + freq (4 byte)
if (!followDownAddressSearchStop) {
int addr = getBigramAddress(&pos, false);
if (addr > addressLookingFor) {
followDownAddressSearchStop = true;
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
} else if (!haveToSearchAll) {
break;
}
} else {
followDownBranchAddress = addr;
followingChar = (char)(0xFF & DICT[pos-1]);
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
}
}
}
pos += 4;
} else { // freq only (2 byte)
pos += 2;
}
// skipping bigram
int bigramExist = (DICT[pos] & FLAG_BIGRAM_READ);
if (bigramExist > 0) {
int nextBigramExist = 1;
while (nextBigramExist > 0) {
pos += 3;
nextBigramExist = (DICT[pos++] & FLAG_BIGRAM_CONTINUED);
}
} else {
pos++;
}
}
}
depth++;
if (followDownBranchAddress == 0) {
LOGI("ERROR!!! Cannot find bigram!!");
break;
}
}
if (checkFirstCharacter(word)) {
addWordBigram(word, depth, frequency);
}
}
bool BigramDictionary::checkFirstCharacter(unsigned short *word) {
// Checks whether this word starts with same character or neighboring characters of
// what user typed.
int *inputCodes = mInputCodes;
int maxAlt = MAX_ALTERNATIVES;
while (maxAlt > 0) {
if ((unsigned int) *inputCodes == (unsigned int) *word) {
return true;
}
inputCodes++;
maxAlt--;
}
return false;
}
// TODO: Move functions related to bigram to here // TODO: Move functions related to bigram to here
} // namespace latinime } // namespace latinime

27
native/src/bigram_dictionary.h
View File

@ -22,10 +22,33 @@ namespace latinime {
class Dictionary; class Dictionary;
class BigramDictionary { class BigramDictionary {
public: public:
BigramDictionary(void *dict, int typedLetterMultipler, int fullWordMultiplier, int maxWordLength, BigramDictionary(const unsigned char *dict, int maxWordLength, int maxAlternatives,
int maxWords, int maxAlternatives, Dictionary *parentDictionary); const bool isLatestDictVersion, const bool hasBigram, Dictionary *parentDictionary);
int getBigrams(unsigned short *word, int length, int *codes, int codesSize,
unsigned short *outWords, int *frequencies, int maxWordLength, int maxBigrams,
int maxAlternatives);
~BigramDictionary(); ~BigramDictionary();
private: private:
bool addWordBigram(unsigned short *word, int length, int frequency);
int getBigramAddress(int *pos, bool advance);
int getBigramFreq(int *pos);
void searchForTerminalNode(int addressLookingFor, int frequency);
bool getFirstBitOfByte(int *pos) { return (DICT[*pos] & 0x80) > 0; }
bool getSecondBitOfByte(int *pos) { return (DICT[*pos] & 0x40) > 0; }
bool checkFirstCharacter(unsigned short *word);
const unsigned char *DICT;
const int MAX_WORD_LENGTH;
const int MAX_ALTERNATIVES;
const bool IS_LATEST_DICT_VERSION;
const bool HAS_BIGRAM;
Dictionary *mParentDictionary;
int *mBigramFreq;
int mMaxBigrams;
unsigned short *mBigramChars;
int *mInputCodes;
int mInputLength;
}; };
// ---------------------------------------------------------------------------- // ----------------------------------------------------------------------------
}; // namespace latinime }; // namespace latinime

7
native/src/dictionary.cpp
View File

@ -31,10 +31,9 @@ Dictionary::Dictionary(void *dict, int typedLetterMultiplier, int fullWordMultip
{ {
LOGI("IN NATIVE SUGGEST Version: %d \n", (DICT[0] & 0xFF)); LOGI("IN NATIVE SUGGEST Version: %d \n", (DICT[0] & 0xFF));
mUnigramDictionary = new UnigramDictionary(DICT, typedLetterMultiplier, fullWordMultiplier, mUnigramDictionary = new UnigramDictionary(DICT, typedLetterMultiplier, fullWordMultiplier,
maxWordLength, maxWords, maxAlternatives, IS_LATEST_DICT_VERSION, maxWordLength, maxWords, maxAlternatives, IS_LATEST_DICT_VERSION);
hasBigram(), this); mBigramDictionary = new BigramDictionary(DICT, maxWordLength, maxAlternatives,
mBigramDictionary = new BigramDictionary(dict, typedLetterMultiplier, fullWordMultiplier, IS_LATEST_DICT_VERSION, hasBigram(), this);
maxWordLength, maxWords, maxAlternatives, this);
} }
Dictionary::~Dictionary() Dictionary::~Dictionary()

12
native/src/dictionary.h
View File

@ -37,7 +37,7 @@ public:
int getBigrams(unsigned short *word, int length, int *codes, int codesSize, int getBigrams(unsigned short *word, int length, int *codes, int codesSize,
unsigned short *outWords, int *frequencies, int maxWordLength, int maxBigrams, unsigned short *outWords, int *frequencies, int maxWordLength, int maxBigrams,
int maxAlternatives) { int maxAlternatives) {
return mUnigramDictionary->getBigrams(word, length, codes, codesSize, outWords, frequencies, return mBigramDictionary->getBigrams(word, length, codes, codesSize, outWords, frequencies,
maxWordLength, maxBigrams, maxAlternatives); maxWordLength, maxBigrams, maxAlternatives);
} }
bool isValidWord(unsigned short *word, int length); bool isValidWord(unsigned short *word, int length);
@ -53,6 +53,7 @@ public:
static bool getTerminal(const unsigned char *dict, int *pos); static bool getTerminal(const unsigned char *dict, int *pos);
static int getAddress(const unsigned char *dict, int *pos); static int getAddress(const unsigned char *dict, int *pos);
static int getFreq(const unsigned char *dict, const bool isLatestDictVersion, int *pos); static int getFreq(const unsigned char *dict, const bool isLatestDictVersion, int *pos);
static int wideStrLen(unsigned short *str);
private: private:
bool hasBigram(); bool hasBigram();
@ -117,5 +118,14 @@ inline int Dictionary::getFreq(const unsigned char *dict,
return freq; return freq;
} }
inline int Dictionary::wideStrLen(unsigned short *str) {
if (!str) return 0;
unsigned short *end = str;
while (*end)
end++;
return end - str;
}
}; // namespace latinime }; // namespace latinime
#endif // LATINIME_DICTIONARY_H #endif // LATINIME_DICTIONARY_H

262
native/src/unigram_dictionary.cpp
View File

@ -31,23 +31,17 @@ namespace latinime {
UnigramDictionary::UnigramDictionary(const unsigned char *dict, int typedLetterMultiplier, UnigramDictionary::UnigramDictionary(const unsigned char *dict, int typedLetterMultiplier,
int fullWordMultiplier, int maxWordLength, int maxWords, int maxAlternatives, int fullWordMultiplier, int maxWordLength, int maxWords, int maxAlternatives,
const bool isLatestDictVersion, const bool hasBigram, Dictionary *parentDictionary) const bool isLatestDictVersion)
: DICT(dict), MAX_WORD_LENGTH(maxWordLength),MAX_WORDS(maxWords), : DICT(dict), MAX_WORD_LENGTH(maxWordLength),MAX_WORDS(maxWords),
MAX_ALTERNATIVES(maxAlternatives), IS_LATEST_DICT_VERSION(isLatestDictVersion), MAX_ALTERNATIVES(maxAlternatives), IS_LATEST_DICT_VERSION(isLatestDictVersion),
HAS_BIGRAM(hasBigram), mParentDictionary(parentDictionary) TYPED_LETTER_MULTIPLIER(typedLetterMultiplier), FULL_WORD_MULTIPLIER(fullWordMultiplier) {
{
LOGI("UnigramDictionary - constructor"); LOGI("UnigramDictionary - constructor");
LOGI("Has Bigram : %d \n", hasBigram);
mTypedLetterMultiplier = typedLetterMultiplier;
mFullWordMultiplier = fullWordMultiplier;
} }
UnigramDictionary::~UnigramDictionary() UnigramDictionary::~UnigramDictionary() {}
{
}
int UnigramDictionary::getSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies, int UnigramDictionary::getSuggestions(int *codes, int codesSize, unsigned short *outWords,
int *nextLetters, int nextLettersSize) int *frequencies, int *nextLetters, int nextLettersSize)
{ {
initSuggestions(codes, codesSize, outWords, frequencies); initSuggestions(codes, codesSize, outWords, frequencies);
@ -114,16 +108,6 @@ void UnigramDictionary::registerNextLetter(unsigned short c, int *nextLetters, i
} }
} }
int
UnigramDictionary::wideStrLen(unsigned short *str)
{
if (!str) return 0;
unsigned short *end = str;
while (*end)
end++;
return end - str;
}
bool bool
UnigramDictionary::addWord(unsigned short *word, int length, int frequency) UnigramDictionary::addWord(unsigned short *word, int length, int frequency)
{ {
@ -139,7 +123,7 @@ UnigramDictionary::addWord(unsigned short *word, int length, int frequency)
while (insertAt < MAX_WORDS) { while (insertAt < MAX_WORDS) {
if (frequency > mFrequencies[insertAt] if (frequency > mFrequencies[insertAt]
|| (mFrequencies[insertAt] == frequency || (mFrequencies[insertAt] == frequency
&& length < wideStrLen(mOutputChars + insertAt * MAX_WORD_LENGTH))) { && length < Dictionary::wideStrLen(mOutputChars + insertAt * MAX_WORD_LENGTH))) {
break; break;
} }
insertAt++; insertAt++;
@ -163,46 +147,6 @@ UnigramDictionary::addWord(unsigned short *word, int length, int frequency)
return false; return false;
} }
bool
UnigramDictionary::addWordBigram(unsigned short *word, int length, int frequency)
{
word[length] = 0;
if (DEBUG_DICT) {
char s[length + 1];
for (int i = 0; i <= length; i++) s[i] = word[i];
LOGI("Bigram: Found word = %s, freq = %d : \n", s, frequency);
}
// Find the right insertion point
int insertAt = 0;
while (insertAt < mMaxBigrams) {
if (frequency > mBigramFreq[insertAt]
|| (mBigramFreq[insertAt] == frequency
&& length < wideStrLen(mBigramChars + insertAt * MAX_WORD_LENGTH))) {
break;
}
insertAt++;
}
LOGI("Bigram: InsertAt -> %d maxBigrams: %d\n", insertAt, mMaxBigrams);
if (insertAt < mMaxBigrams) {
memmove((char*) mBigramFreq + (insertAt + 1) * sizeof(mBigramFreq[0]),
(char*) mBigramFreq + insertAt * sizeof(mBigramFreq[0]),
(mMaxBigrams - insertAt - 1) * sizeof(mBigramFreq[0]));
mBigramFreq[insertAt] = frequency;
memmove((char*) mBigramChars + (insertAt + 1) * MAX_WORD_LENGTH * sizeof(short),
(char*) mBigramChars + (insertAt ) * MAX_WORD_LENGTH * sizeof(short),
(mMaxBigrams - insertAt - 1) * sizeof(short) * MAX_WORD_LENGTH);
unsigned short *dest = mBigramChars + (insertAt ) * MAX_WORD_LENGTH;
while (length--) {
*dest++ = *word++;
}
*dest = 0; // NULL terminate
if (DEBUG_DICT) LOGI("Bigram: Added word at %d\n", insertAt);
return true;
}
return false;
}
unsigned short unsigned short
UnigramDictionary::toLowerCase(unsigned short c) { UnigramDictionary::toLowerCase(unsigned short c) {
if (c < sizeof(BASE_CHARS) / sizeof(BASE_CHARS[0])) { if (c < sizeof(BASE_CHARS) / sizeof(BASE_CHARS[0])) {
@ -236,8 +180,8 @@ UnigramDictionary::sameAsTyped(unsigned short *word, int length)
static char QUOTE = '\''; static char QUOTE = '\'';
void void
UnigramDictionary::getWordsRec(int pos, int depth, int maxDepth, bool completion, int snr, int inputIndex, UnigramDictionary::getWordsRec(int pos, int depth, int maxDepth, bool completion, int snr,
int diffs, int skipPos, int *nextLetters, int nextLettersSize) int inputIndex, int diffs, int skipPos, int *nextLetters, int nextLettersSize)
{ {
// Optimization: Prune out words that are too long compared to how much was typed. // Optimization: Prune out words that are too long compared to how much was typed.
if (depth > maxDepth) { if (depth > maxDepth) {
@ -290,14 +234,14 @@ UnigramDictionary::getWordsRec(int pos, int depth, int maxDepth, bool completion
int j = 0; int j = 0;
while (currentChars[j] > 0) { while (currentChars[j] > 0) {
if (currentChars[j] == lowerC || currentChars[j] == c) { if (currentChars[j] == lowerC || currentChars[j] == c) {
int addedWeight = j == 0 ? mTypedLetterMultiplier : 1; int addedWeight = j == 0 ? TYPED_LETTER_MULTIPLIER : 1;
mWord[depth] = c; mWord[depth] = c;
if (mInputLength == inputIndex + 1) { if (mInputLength == inputIndex + 1) {
if (terminal) { if (terminal) {
if (//INCLUDE_TYPED_WORD_IF_VALID || if (//INCLUDE_TYPED_WORD_IF_VALID ||
!sameAsTyped(mWord, depth + 1)) { !sameAsTyped(mWord, depth + 1)) {
int finalFreq = freq * snr * addedWeight; int finalFreq = freq * snr * addedWeight;
if (skipPos < 0) finalFreq *= mFullWordMultiplier; if (skipPos < 0) finalFreq *= FULL_WORD_MULTIPLIER;
addWord(mWord, depth + 1, finalFreq); addWord(mWord, depth + 1, finalFreq);
} }
} }
@ -319,190 +263,4 @@ UnigramDictionary::getWordsRec(int pos, int depth, int maxDepth, bool completion
} }
} }
int
UnigramDictionary::getBigramAddress(int *pos, bool advance)
{
int address = 0;
address += (DICT[*pos] & 0x3F) << 16;
address += (DICT[*pos + 1] & 0xFF) << 8;
address += (DICT[*pos + 2] & 0xFF);
if (advance) {
*pos += 3;
}
return address;
}
int
UnigramDictionary::getBigramFreq(int *pos)
{
int freq = DICT[(*pos)++] & FLAG_BIGRAM_FREQ;
return freq;
}
int
UnigramDictionary::getBigrams(unsigned short *prevWord, int prevWordLength, int *codes, int codesSize,
unsigned short *bigramChars, int *bigramFreq, int maxWordLength, int maxBigrams,
int maxAlternatives)
{
mBigramFreq = bigramFreq;
mBigramChars = bigramChars;
mInputCodes = codes;
mInputLength = codesSize;
mMaxBigrams = maxBigrams;
if (HAS_BIGRAM && IS_LATEST_DICT_VERSION) {
int pos = mParentDictionary->isValidWordRec(
DICTIONARY_HEADER_SIZE, prevWord, 0, prevWordLength);
LOGI("Pos -> %d\n", pos);
if (pos < 0) {
return 0;
}
int bigramCount = 0;
int bigramExist = (DICT[pos] & FLAG_BIGRAM_READ);
if (bigramExist > 0) {
int nextBigramExist = 1;
while (nextBigramExist > 0 && bigramCount < maxBigrams) {
int bigramAddress = getBigramAddress(&pos, true);
int frequency = (FLAG_BIGRAM_FREQ & DICT[pos]);
// search for all bigrams and store them
searchForTerminalNode(bigramAddress, frequency);
nextBigramExist = (DICT[pos++] & FLAG_BIGRAM_CONTINUED);
bigramCount++;
}
}
return bigramCount;
}
return 0;
}
void
UnigramDictionary::searchForTerminalNode(int addressLookingFor, int frequency)
{
// track word with such address and store it in an array
unsigned short word[MAX_WORD_LENGTH];
int pos;
int followDownBranchAddress = DICTIONARY_HEADER_SIZE;
bool found = false;
char followingChar = ' ';
int depth = -1;
while(!found) {
bool followDownAddressSearchStop = false;
bool firstAddress = true;
bool haveToSearchAll = true;
if (depth >= 0) {
word[depth] = (unsigned short) followingChar;
}
pos = followDownBranchAddress; // pos start at count
int count = DICT[pos] & 0xFF;
LOGI("count - %d\n",count);
pos++;
for (int i = 0; i < count; i++) {
// pos at data
pos++;
// pos now at flag
if (!getFirstBitOfByte(&pos)) { // non-terminal
if (!followDownAddressSearchStop) {
int addr = getBigramAddress(&pos, false);
if (addr > addressLookingFor) {
followDownAddressSearchStop = true;
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
} else if (!haveToSearchAll) {
break;
}
} else {
followDownBranchAddress = addr;
followingChar = (char)(0xFF & DICT[pos-1]);
if (firstAddress) {
firstAddress = false;
haveToSearchAll = false;
}
}
}
pos += 3;
} else if (getFirstBitOfByte(&pos)) { // terminal
if (addressLookingFor == (pos-1)) { // found !!
depth++;
word[depth] = (0xFF & DICT[pos-1]);
found = true;
break;
}
if (getSecondBitOfByte(&pos)) { // address + freq (4 byte)
if (!followDownAddressSearchStop) {
int addr = getBigramAddress(&pos, false);
if (addr > addressLookingFor) {
followDownAddressSearchStop = true;
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
} else if (!haveToSearchAll) {
break;
}
} else {
followDownBranchAddress = addr;
followingChar = (char)(0xFF & DICT[pos-1]);
if (firstAddress) {
firstAddress = false;
haveToSearchAll = true;
}
}
}
pos += 4;
} else { // freq only (2 byte)
pos += 2;
}
// skipping bigram
int bigramExist = (DICT[pos] & FLAG_BIGRAM_READ);
if (bigramExist > 0) {
int nextBigramExist = 1;
while (nextBigramExist > 0) {
pos += 3;
nextBigramExist = (DICT[pos++] & FLAG_BIGRAM_CONTINUED);
}
} else {
pos++;
}
}
}
depth++;
if (followDownBranchAddress == 0) {
LOGI("ERROR!!! Cannot find bigram!!");
break;
}
}
if (checkFirstCharacter(word)) {
addWordBigram(word, depth, frequency);
}
}
bool
UnigramDictionary::checkFirstCharacter(unsigned short *word)
{
// Checks whether this word starts with same character or neighboring characters of
// what user typed.
int *inputCodes = mInputCodes;
int maxAlt = MAX_ALTERNATIVES;
while (maxAlt > 0) {
if ((unsigned int) *inputCodes == (unsigned int) *word) {
return true;
}
inputCodes++;
maxAlt--;
}
return false;
}
} // namespace latinime } // namespace latinime

31
native/src/unigram_dictionary.h
View File

@ -24,63 +24,42 @@ namespace latinime {
class UnigramDictionary { class UnigramDictionary {
public: public:
UnigramDictionary(const unsigned char *dict, int typedLetterMultipler, int fullWordMultiplier, UnigramDictionary(const unsigned char *dict, int typedLetterMultipler, int fullWordMultiplier,
int maxWordLength, int maxWords, int maxAlternatives, const bool isLatestDictVersion, int maxWordLength, int maxWords, int maxAlternatives, const bool isLatestDictVersion);
const bool hasBigram, Dictionary *parentDictionary);
int getSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies, int getSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies,
int *nextLetters, int nextLettersSize); int *nextLetters, int nextLettersSize);
int getBigrams(unsigned short *word, int length, int *codes, int codesSize,
unsigned short *outWords, int *frequencies, int maxWordLength, int maxBigrams,
int maxAlternatives);
~UnigramDictionary(); ~UnigramDictionary();
private: private:
void initSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies); void initSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies);
int getSuggestionCandidates(int inputLength, int skipPos, int *nextLetters, int nextLettersSize); int getSuggestionCandidates(int inputLength, int skipPos, int *nextLetters,
int nextLettersSize);
void getVersionNumber(); void getVersionNumber();
bool checkIfDictVersionIsLatest(); bool checkIfDictVersionIsLatest();
int getAddress(int *pos); int getAddress(int *pos);
int getBigramAddress(int *pos, bool advance);
int getFreq(int *pos); int getFreq(int *pos);
int getBigramFreq(int *pos);
void searchForTerminalNode(int address, int frequency);
bool getFirstBitOfByte(int *pos) { return (DICT[*pos] & 0x80) > 0; }
bool getSecondBitOfByte(int *pos) { return (DICT[*pos] & 0x40) > 0; }
bool getTerminal(int *pos) { return (DICT[*pos] & FLAG_TERMINAL_MASK) > 0; }
int wideStrLen(unsigned short *str); int wideStrLen(unsigned short *str);
bool sameAsTyped(unsigned short *word, int length); bool sameAsTyped(unsigned short *word, int length);
bool checkFirstCharacter(unsigned short *word);
bool addWord(unsigned short *word, int length, int frequency); bool addWord(unsigned short *word, int length, int frequency);
bool addWordBigram(unsigned short *word, int length, int frequency);
unsigned short toLowerCase(unsigned short c); unsigned short toLowerCase(unsigned short c);
void getWordsRec(int pos, int depth, int maxDepth, bool completion, int frequency, void getWordsRec(int pos, int depth, int maxDepth, bool completion, int frequency,
int inputIndex, int diffs, int skipPos, int *nextLetters, int nextLettersSize); int inputIndex, int diffs, int skipPos, int *nextLetters, int nextLettersSize);
void registerNextLetter(unsigned short c, int *nextLetters, int nextLettersSize); void registerNextLetter(unsigned short c, int *nextLetters, int nextLettersSize);
const unsigned char *DICT; const unsigned char *DICT;
const int MAX_WORDS; const int MAX_WORDS;
const int MAX_WORD_LENGTH; const int MAX_WORD_LENGTH;
const int MAX_ALTERNATIVES; const int MAX_ALTERNATIVES;
const bool IS_LATEST_DICT_VERSION; const bool IS_LATEST_DICT_VERSION;
const bool HAS_BIGRAM; const int TYPED_LETTER_MULTIPLIER;
const int FULL_WORD_MULTIPLIER;
Dictionary *mParentDictionary;
int *mFrequencies; int *mFrequencies;
int *mBigramFreq;
int mMaxBigrams;
unsigned short *mOutputChars; unsigned short *mOutputChars;
unsigned short *mBigramChars;
int *mInputCodes; int *mInputCodes;
int mInputLength; int mInputLength;
unsigned short mWord[128]; unsigned short mWord[128];
int mMaxEditDistance; int mMaxEditDistance;
int mFullWordMultiplier;
int mTypedLetterMultiplier;
int mVersion;
int mBigram;
}; };
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