Split a method to reconstruct freq from uni/bi freq
This has no impact at all on the logic.
Change-Id: I3788c8335cc193433ad9a7512b211a49bb2ffb02
diff --git a/native/jni/src/binary_format.h b/native/jni/src/binary_format.h
index 4a1649c..e42589b 100644
--- a/native/jni/src/binary_format.h
+++ b/native/jni/src/binary_format.h
@@ -67,6 +67,7 @@
const int length);
static int getWordAtAddress(const uint8_t* const root, const int address, const int maxDepth,
uint16_t* outWord);
+ static int computeFrequencyForBigram(const int unigramFreq, const int bigramFreq);
static int getProbability(const int position, const std::map<int, int> *bigramMap,
const uint8_t *bigramFilter, const int unigramFreq);
@@ -529,6 +530,16 @@
// return unigramFreq > 8 ? unigramFreq - 8 : (0 == unigramFreq ? 0 : 8);
}
+inline int BinaryFormat::computeFrequencyForBigram(const int unigramFreq, const int bigramFreq) {
+ // We divide the range [unigramFreq..255] in 16.5 steps - in other words, we want the
+ // unigram frequency to be the median value of the 17th step from the top. A value of
+ // 0 for the bigram frequency represents the middle of the 16th step from the top,
+ // while a value of 15 represents the middle of the top step.
+ // See makedict.BinaryDictInputOutput for details.
+ const float stepSize = ((float)MAX_FREQ - unigramFreq) / (1.5f + MAX_BIGRAM_FREQ);
+ return (int)(unigramFreq + bigramFreq * stepSize);
+}
+
// This returns a probability in log space.
inline int BinaryFormat::getProbability(const int position, const std::map<int, int> *bigramMap,
const uint8_t *bigramFilter, const int unigramFreq) {
@@ -537,13 +548,7 @@
const std::map<int, int>::const_iterator bigramFreqIt = bigramMap->find(position);
if (bigramFreqIt != bigramMap->end()) {
const int bigramFreq = bigramFreqIt->second;
- // We divide the range [unigramFreq..255] in 16.5 steps - in other words, we want the
- // unigram frequency to be the median value of the 17th step from the top. A value of
- // 0 for the bigram frequency represents the middle of the 16th step from the top,
- // while a value of 15 represents the middle of the top step.
- // See makedict.BinaryDictInputOutput for details.
- const float stepSize = ((float)MAX_FREQ - unigramFreq) / (1.5f + MAX_BIGRAM_FREQ);
- return (int)(unigramFreq + bigramFreq * stepSize);
+ return computeFrequencyForBigram(unigramFreq, bigramFreq);
} else {
return backoff(unigramFreq);
}