LatinIME/native/jni/src/bigram_dictionary.cpp

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/*
**
** Copyright 2010, 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 <string.h>
#define LOG_TAG "LatinIME: bigram_dictionary.cpp"
#include "bigram_dictionary.h"
#include "dictionary.h"
#include "binary_format.h"
namespace latinime {
BigramDictionary::BigramDictionary(const unsigned char *dict, int maxWordLength,
Dictionary *parentDictionary)
: DICT(dict), MAX_WORD_LENGTH(maxWordLength), mParentDictionary(parentDictionary) {
if (DEBUG_DICT) {
AKLOGI("BigramDictionary - constructor");
AKLOGI("Has Bigram : %d", hasBigram);
}
}
BigramDictionary::~BigramDictionary() {
}
bool BigramDictionary::addWordBigram(unsigned short *word, int length, int frequency) {
word[length] = 0;
if (DEBUG_DICT) {
#ifdef FLAG_DBG
char s[length + 1];
for (int i = 0; i <= length; i++) s[i] = word[i];
AKLOGI("Bigram: Found word = %s, freq = %d :", s, frequency);
#endif
}
// 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++;
}
if (DEBUG_DICT) {
AKLOGI("Bigram: InsertAt -> %d maxBigrams: %d", 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) {
AKLOGI("Bigram: Added word at %d", insertAt);
}
return true;
}
return false;
}
/* Parameters :
* prevWord: the word before, the one for which we need to look up bigrams.
* prevWordLength: its length.
* codes: what user typed, in the same format as for UnigramDictionary::getSuggestions.
* codesSize: the size of the codes array.
* bigramChars: an array for output, at the same format as outwords for getSuggestions.
* bigramFreq: an array to output frequencies.
* maxWordLength: the maximum size of a word.
* maxBigrams: the maximum number of bigrams fitting in the bigramChars array.
* This method returns the number of bigrams this word has, for backward compatibility.
* Note: this is not the number of bigrams output in the array, which is the number of
* bigrams this word has WHOSE first letter also matches the letter the user typed.
* TODO: this may not be a sensible thing to do. It makes sense when the bigrams are
* used to match the first letter of the second word, but once the user has typed more
* and the bigrams are used to boost unigram result scores, it makes little sense to
* reduce their scope to the ones that match the first letter.
*/
int BigramDictionary::getBigrams(unsigned short *prevWord, int prevWordLength, int *codes,
int codesSize, unsigned short *bigramChars, int *bigramFreq, int maxWordLength,
int maxBigrams) {
// 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
mBigramFreq = bigramFreq;
mBigramChars = bigramChars;
mInputCodes = codes;
mMaxBigrams = maxBigrams;
const uint8_t* const root = DICT;
int pos = getBigramListForWord(root, prevWord, prevWordLength);
int bigramFlags;
int bigramCount = 0;
do {
bigramFlags = BinaryFormat::getFlagsAndForwardPointer(root, &pos);
uint16_t bigramBuffer[MAX_WORD_LENGTH];
const int bigramPos = BinaryFormat::getAttributeAddressAndForwardPointer(root, bigramFlags,
&pos);
const int length = BinaryFormat::getWordAtAddress(root, bigramPos, MAX_WORD_LENGTH,
bigramBuffer);
// codesSize == 0 means we are trying to find bigram predictions.
if (codesSize < 1 || checkFirstCharacter(bigramBuffer)) {
const int frequency = UnigramDictionary::MASK_ATTRIBUTE_FREQUENCY & bigramFlags;
if (addWordBigram(bigramBuffer, length, frequency)) {
++bigramCount;
}
}
} while (0 != (UnigramDictionary::FLAG_ATTRIBUTE_HAS_NEXT & bigramFlags));
return bigramCount;
}
int BigramDictionary::getBigramListForWord(const uint8_t* const root,
const unsigned short *prevWord, const int prevWordLength) {
int pos = BinaryFormat::getTerminalPosition(root, prevWord, prevWordLength);
if (NOT_VALID_WORD == pos) return 0;
const int flags = BinaryFormat::getFlagsAndForwardPointer(root, &pos);
if (0 == (flags & UnigramDictionary::FLAG_HAS_BIGRAMS)) return 0;
if (0 == (flags & UnigramDictionary::FLAG_HAS_MULTIPLE_CHARS)) {
BinaryFormat::getCharCodeAndForwardPointer(root, &pos);
} else {
pos = BinaryFormat::skipOtherCharacters(root, pos);
}
pos = BinaryFormat::skipChildrenPosition(flags, pos);
pos = BinaryFormat::skipFrequency(flags, pos);
pos = BinaryFormat::skipShortcuts(root, flags, pos);
return pos;
}
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;
const unsigned short firstBaseChar = toBaseLowerCase(*word);
while (maxAlt > 0) {
if (toBaseLowerCase(*inputCodes) == firstBaseChar) {
return true;
}
inputCodes++;
maxAlt--;
}
return false;
}
// TODO: Move functions related to bigram to here
} // namespace latinime