am 3ff95b72: Merge "Add a threshold for suggestion score."

* commit '3ff95b72908818dac3615e14a0ba3bf626e05dd7':
  Add a threshold for suggestion score.
This commit is contained in:
Jean Chalard 2011-09-29 01:49:41 -07:00 committed by Android Git Automerger
commit 1ed6fa6960
2 changed files with 54 additions and 29 deletions

View file

@ -82,8 +82,10 @@
will be subject to auto-correction. --> will be subject to auto-correction. -->
<item>0</item> <item>0</item>
</string-array> </string-array>
<!-- Threshold of the normalized score of the best suggestion for the spell checker to declare a word to be a typo --> <!-- Threshold of the normalized score of the best suggestion for the spell checker to declare a word to be "likely" -->
<string name="spellchecker_typo_threshold_value" translatable="false">0.11</string> <string name="spellchecker_likely_threshold_value" translatable="false">0.11</string>
<!-- Threshold of the normalized score of any dictionary lookup to be offered as a suggestion by the spell checker -->
<string name="spellchecker_suggestion_threshold_value" translatable="false">0.03</string>
<!-- Screen metrics for logging. <!-- Screen metrics for logging.
0 = "mdpi phone screen" 0 = "mdpi phone screen"
1 = "hdpi phone screen" 1 = "hdpi phone screen"

View file

@ -70,11 +70,17 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
private Map<String, Dictionary> mUserDictionaries = private Map<String, Dictionary> mUserDictionaries =
Collections.synchronizedMap(new TreeMap<String, Dictionary>()); Collections.synchronizedMap(new TreeMap<String, Dictionary>());
private double mTypoThreshold; // The threshold for a candidate to be offered as a suggestion.
private double mSuggestionThreshold;
// The threshold for a suggestion to be considered "likely".
private double mLikelyThreshold;
@Override public void onCreate() { @Override public void onCreate() {
super.onCreate(); super.onCreate();
mTypoThreshold = Double.parseDouble(getString(R.string.spellchecker_typo_threshold_value)); mSuggestionThreshold =
Double.parseDouble(getString(R.string.spellchecker_suggestion_threshold_value));
mLikelyThreshold =
Double.parseDouble(getString(R.string.spellchecker_likely_threshold_value));
} }
@Override @Override
@ -96,7 +102,8 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
private final ArrayList<CharSequence> mSuggestions; private final ArrayList<CharSequence> mSuggestions;
private final int[] mScores; private final int[] mScores;
private final String mOriginalText; private final String mOriginalText;
private final double mThreshold; private final double mSuggestionThreshold;
private final double mLikelyThreshold;
private final int mMaxLength; private final int mMaxLength;
private int mLength = 0; private int mLength = 0;
@ -105,10 +112,11 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
private String mBestSuggestion = null; private String mBestSuggestion = null;
private int mBestScore = Integer.MIN_VALUE; // As small as possible private int mBestScore = Integer.MIN_VALUE; // As small as possible
SuggestionsGatherer(final String originalText, final double threshold, SuggestionsGatherer(final String originalText, final double suggestionThreshold,
final int maxLength) { final double likelyThreshold, final int maxLength) {
mOriginalText = originalText; mOriginalText = originalText;
mThreshold = threshold; mSuggestionThreshold = suggestionThreshold;
mLikelyThreshold = likelyThreshold;
mMaxLength = maxLength; mMaxLength = maxLength;
mSuggestions = new ArrayList<CharSequence>(maxLength + 1); mSuggestions = new ArrayList<CharSequence>(maxLength + 1);
mScores = new int[mMaxLength]; mScores = new int[mMaxLength];
@ -122,28 +130,42 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
// if it doesn't. See documentation for binarySearch. // if it doesn't. See documentation for binarySearch.
final int insertIndex = positionIndex >= 0 ? positionIndex : -positionIndex - 1; final int insertIndex = positionIndex >= 0 ? positionIndex : -positionIndex - 1;
if (insertIndex == 0 && mLength >= mMaxLength) {
// In the future, we may want to keep track of the best suggestion score even if
// we are asked for 0 suggestions. In this case, we can use the following
// (tested) code to keep it:
// If the maxLength is 0 (should never be less, but if it is, it's treated as 0)
// then we need to keep track of the best suggestion in mBestScore and
// mBestSuggestion. This is so that we know whether the best suggestion makes
// the score cutoff, since we need to know that to return a meaningful
// looksLikeTypo.
// if (0 >= mMaxLength) {
// if (score > mBestScore) {
// mBestScore = score;
// mBestSuggestion = new String(word, wordOffset, wordLength);
// }
// }
return true;
}
// Compute the normalized score and skip this word if it's normalized score does not
// make the threshold.
final String wordString = new String(word, wordOffset, wordLength);
final double normalizedScore =
Utils.calcNormalizedScore(mOriginalText, wordString, score);
if (normalizedScore < mSuggestionThreshold) {
if (DBG) Log.i(TAG, wordString + " does not make the score threshold");
return true;
}
if (mLength < mMaxLength) { if (mLength < mMaxLength) {
final int copyLen = mLength - insertIndex; final int copyLen = mLength - insertIndex;
++mLength; ++mLength;
System.arraycopy(mScores, insertIndex, mScores, insertIndex + 1, copyLen); System.arraycopy(mScores, insertIndex, mScores, insertIndex + 1, copyLen);
mSuggestions.add(insertIndex, new String(word, wordOffset, wordLength)); mSuggestions.add(insertIndex, wordString);
} else { } else {
if (insertIndex == 0) {
// If the maxLength is 0 (should never be less, but if it is, it's treated as 0)
// then we need to keep track of the best suggestion in mBestScore and
// mBestSuggestion. This is so that we know whether the best suggestion makes
// the score cutoff, since we need to know that to return a meaningful
// looksLikeTypo.
if (0 >= mMaxLength) {
if (score > mBestScore) {
mBestScore = score;
mBestSuggestion = new String(word, wordOffset, wordLength);
}
}
return true;
}
System.arraycopy(mScores, 1, mScores, 0, insertIndex); System.arraycopy(mScores, 1, mScores, 0, insertIndex);
mSuggestions.add(insertIndex, new String(word, wordOffset, wordLength)); mSuggestions.add(insertIndex, wordString);
mSuggestions.remove(0); mSuggestions.remove(0);
} }
mScores[insertIndex] = score; mScores[insertIndex] = score;
@ -165,7 +187,7 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
gatheredSuggestions = EMPTY_STRING_ARRAY; gatheredSuggestions = EMPTY_STRING_ARRAY;
final double normalizedScore = final double normalizedScore =
Utils.calcNormalizedScore(mOriginalText, mBestSuggestion, mBestScore); Utils.calcNormalizedScore(mOriginalText, mBestSuggestion, mBestScore);
hasLikelySuggestions = (normalizedScore > mThreshold); hasLikelySuggestions = (normalizedScore > mLikelyThreshold);
} }
} else { } else {
if (DBG) { if (DBG) {
@ -199,10 +221,11 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
final CharSequence bestSuggestion = mSuggestions.get(0); final CharSequence bestSuggestion = mSuggestions.get(0);
final double normalizedScore = final double normalizedScore =
Utils.calcNormalizedScore(mOriginalText, bestSuggestion, bestScore); Utils.calcNormalizedScore(mOriginalText, bestSuggestion, bestScore);
hasLikelySuggestions = (normalizedScore > mThreshold); hasLikelySuggestions = (normalizedScore > mLikelyThreshold);
if (DBG) { if (DBG) {
Log.i(TAG, "Best suggestion : " + bestSuggestion + ", score " + bestScore); Log.i(TAG, "Best suggestion : " + bestSuggestion + ", score " + bestScore);
Log.i(TAG, "Normalized score = " + normalizedScore + " (threshold " + mThreshold Log.i(TAG, "Normalized score = " + normalizedScore
+ " (threshold " + mLikelyThreshold
+ ") => hasLikelySuggestions = " + hasLikelySuggestions); + ") => hasLikelySuggestions = " + hasLikelySuggestions);
} }
} }
@ -354,8 +377,8 @@ public class AndroidSpellCheckerService extends SpellCheckerService {
} }
// TODO: Don't gather suggestions if the limit is <= 0 unless necessary // TODO: Don't gather suggestions if the limit is <= 0 unless necessary
final SuggestionsGatherer suggestionsGatherer = final SuggestionsGatherer suggestionsGatherer = new SuggestionsGatherer(text,
new SuggestionsGatherer(text, mService.mTypoThreshold, suggestionsLimit); mService.mSuggestionThreshold, mService.mLikelyThreshold, suggestionsLimit);
final WordComposer composer = new WordComposer(); final WordComposer composer = new WordComposer();
final int length = text.length(); final int length = text.length();
for (int i = 0; i < length; ++i) { for (int i = 0; i < length; ++i) {