Esempio n. 1
0
        private int compareByEnsemble(CSpellScore o1, CSpellScore o2)
        {
            int @out = 0;
            OrthographicScore oScore1 = ((CSpellScore)o1).GetOScore();
            OrthographicScore oScore2 = ((CSpellScore)o2).GetOScore();
            FrequencyScore    fScore1 = ((CSpellScore)o1).GetFScore();
            FrequencyScore    fScore2 = ((CSpellScore)o2).GetFScore();
            ContextScore      cScore1 = ((CSpellScore)o1).GetCScore();
            ContextScore      cScore2 = ((CSpellScore)o2).GetCScore();
            double            score1  = 0.6 * oScore1.GetScore() + 0.25 * fScore1.GetScore() + 0.15 * cScore1.GetScore();
            double            score2  = 0.6 * oScore2.GetScore() + 0.25 * fScore2.GetScore() + 0.15 * cScore2.GetScore();

            // 1. compared by orthographic score, best
            // SCR-2: use a fixed number to ensure result is not 0.
            if (score2 > score1)
            {
                // from high to low
                @out = 1;
            }
            else if (score2 < score1)
            {
                @out = -1;
            }
            // 2. alphabetic order
            else
            {
                string cand1 = ((CSpellScore)o1).GetCandStr();
                string cand2 = ((CSpellScore)o2).GetCandStr();
                @out = cand2.CompareTo(cand1);
            }
            return(@out);
        }
        // private methods
        private static bool IsTopCandValidByScores(ContextScore orgContextScore, FrequencyScore orgFreqScore, ContextScore topContextScore, CSpellScore topCSpellScore, CSpellApi cSpellApi)
        {
            // init
            bool   flag = false;
            double rw1To1CandCsFactor = cSpellApi.GetRankRw1To1CandCsFac();
            double rw1To1WordMinCs    = cSpellApi.GetRankRw1To1WordMinCs();
            double rw1To1CandMinCs    = cSpellApi.GetRankRw1To1CandMinCs();
            double rw1To1CandCsDist   = cSpellApi.GetRankRw1To1CandCsDist();
            double rw1To1CandFsFactor = cSpellApi.GetRankRw1To1CandFsFac();
            double rw1To1CandMinFs    = cSpellApi.GetRankRw1To1CandMinFs();
            double rw1To1CandFsDist   = cSpellApi.GetRankRw1To1CandFsDist();
            double orgScore           = orgContextScore.GetScore();
            double topScore           = topContextScore.GetScore();

            // another rule for word2Vec on real-word
            // check contect score:
            // 1. the topScore is bigger enough to cover the orgScore
            // 2. the distance is > a value for confidence
            if (((topScore / -orgScore) > rw1To1CandCsFactor) && (orgScore > rw1To1WordMinCs) && (topScore > rw1To1CandMinCs) && ((topScore - orgScore) > rw1To1CandCsDist))               //609|796|0.6920
            // check frequency, all positive:
            // 1. cand has better frequency
            // 2. the difference is withint a range
            {
                double orgFScore = orgFreqScore.GetScore();
                double topFScore = topCSpellScore.GetFScore().GetScore();
                if (((topFScore / orgFScore) > rw1To1CandFsFactor) && (topFScore > rw1To1CandMinFs) && ((topFScore > orgFScore) || ((orgFScore - topFScore) < rw1To1CandFsDist)))                   // within freq range
                {
                    flag = true;
                }
            }
            return(flag);
        }
Esempio n. 3
0
        /// <summary>
        /// Compare two object o1 and o2.  Both objects o1 and o2 are
        /// NoisyChannelScore.  The compare algorithm:
        /// </summary>
        /// <param name="o1">  first object to be compared </param>
        /// <param name="o2">  second object to be compared
        /// </param>
        /// <returns>  a negative integer, 0, or positive integer to represent the
        ///          object o1 is less, equals, or greater than object 02. </returns>
        public virtual int Compare(NoisyChannelScore o1, NoisyChannelScore o2)
        {
            // 1. compare how many words for the candidates
            // for now, we assume less word is better,
            // i.e. whatever is better than "what ever"
            int    @out    = 0;
            string cand1   = ((NoisyChannelScore)o1).GetCandStr();
            string cand2   = ((NoisyChannelScore)o2).GetCandStr();
            int    wordNo1 = TermUtil.GetWordNo(cand1);
            int    wordNo2 = TermUtil.GetWordNo(cand2);

            if (wordNo1 != wordNo2)
            {
                @out = wordNo1 - wordNo2;                 // less wordNo has higher rank
            }
            else
            {
                // 2. compare noisy Channel score
                double score1 = ((NoisyChannelScore)o1).GetScore();
                double score2 = ((NoisyChannelScore)o2).GetScore();
                // SCR-2: use a fixed number to ensure result is not 0.
                if (score2 > score1)
                {
                    // from high to low
                    @out = 1;
                }
                else if (score2 < score1)
                {
                    @out = -1;
                }
                else
                {
                    // 3. compare by orthographic score
                    OrthographicScore oScore1 = ((NoisyChannelScore)o1).GetOScore();
                    OrthographicScore oScore2 = ((NoisyChannelScore)o2).GetOScore();
                    if (oScore1.GetScore() != oScore2.GetScore())
                    {
                        OrthographicScoreComparator <OrthographicScore> osc = new OrthographicScoreComparator <OrthographicScore>();
                        @out = osc.Compare(oScore1, oScore2);
                    }
                    else                         // 4. hannelScore
                    {
                        FrequencyScore fScore1 = ((NoisyChannelScore)o1).GetFScore();
                        FrequencyScore fScore2 = ((NoisyChannelScore)o2).GetFScore();
                        if (fScore1.GetScore() != fScore2.GetScore())
                        {
                            FrequencyScoreComparator <FrequencyScore> fsc = new FrequencyScoreComparator <FrequencyScore>();
                            @out = fsc.Compare(fScore1, fScore2);
                        }
                        else                             // 4. alphabetic order
                        {
                            @out = cand2.CompareTo(cand1);
                        }
                    }
                }
            }
            return(@out);
        }
Esempio n. 4
0
 // private constructor
 public NoisyChannelScore(string wordStr, string candStr, WordWcMap wordWcMap, double wf1, double wf2, double wf3)
 {
     wordStr_ = wordStr;
     candStr_ = candStr;
     // calculate score
     oScore_ = new OrthographicScore(wordStr_, candStr_, wf1, wf2, wf3);
     fScore_ = new FrequencyScore(candStr_, wordWcMap);
     score_  = oScore_.GetScore() * fScore_.GetScore();
 }
Esempio n. 5
0
        // return the best ranked str from candidates using frequency score
        public static string GetTopRankStrByScore(HashSet <string> candidates, WordWcMap wordWcMap)
        {
            string topRankStr = "";
            double maxScore   = 0.0;

            foreach (string cand in candidates)
            {
                FrequencyScore fs    = new FrequencyScore(cand, wordWcMap);
                double         score = fs.GetScore();
                if (score > maxScore)
                {
                    topRankStr = cand;
                    maxScore   = score;
                }
            }
            return(topRankStr);
        }
Esempio n. 6
0
        // by combination, O, N, F, C
        private int compareByCombo(CSpellScore o1, CSpellScore o2)
        {
            int @out = 0;
            OrthographicScore oScore1 = ((CSpellScore)o1).GetOScore();
            OrthographicScore oScore2 = ((CSpellScore)o2).GetOScore();
            NoisyChannelScore nScore1 = ((CSpellScore)o1).GetNScore();
            NoisyChannelScore nScore2 = ((CSpellScore)o2).GetNScore();
            FrequencyScore    fScore1 = ((CSpellScore)o1).GetFScore();
            FrequencyScore    fScore2 = ((CSpellScore)o2).GetFScore();
            ContextScore      cScore1 = ((CSpellScore)o1).GetCScore();
            ContextScore      cScore2 = ((CSpellScore)o2).GetCScore();

            // 1. compared by orthographic score, best
            if (oScore1.GetScore() != oScore2.GetScore())
            {
                OrthographicScoreComparator <OrthographicScore> osc = new OrthographicScoreComparator <OrthographicScore>();
                @out = osc.Compare(oScore1, oScore2);
            }
            // 2. compared by noise channel score, 2nd best
            else if (nScore1.GetScore() != nScore2.GetScore())
            {
                NoisyChannelScoreComparator <NoisyChannelScore> nsc = new NoisyChannelScoreComparator <NoisyChannelScore>();
                @out = nsc.Compare(nScore1, nScore2);
            }
            // 3. compared by pure frequency score, 3rd best
            else if (fScore1.GetScore() != fScore2.GetScore())
            {
                FrequencyScoreComparator <FrequencyScore> fsc = new FrequencyScoreComparator <FrequencyScore>();
                @out = fsc.Compare(fScore1, fScore2);
            }
            // 4. compared by context score, 4 last
            else if (cScore1.GetScore() != cScore2.GetScore())
            {
                ContextScoreComparator <ContextScore> csc = new ContextScoreComparator <ContextScore>();
                @out = csc.Compare(cScore1, cScore2);
            }
            // 5. alphabetic order
            else
            {
                string cand1 = ((CSpellScore)o1).GetCandStr();
                string cand2 = ((CSpellScore)o2).GetCandStr();
                @out = cand2.CompareTo(cand1);
            }
            return(@out);
        }
Esempio n. 7
0
        private int compareByFrequency(CSpellScore o1, CSpellScore o2)
        {
            int            @out    = 0;
            FrequencyScore fScore1 = ((CSpellScore)o1).GetFScore();
            FrequencyScore fScore2 = ((CSpellScore)o2).GetFScore();

            // 1. compared by context score, 4 last
            if (fScore1.GetScore() != fScore2.GetScore())
            {
                FrequencyScoreComparator <FrequencyScore> fsc = new FrequencyScoreComparator <FrequencyScore>();
                @out = fsc.Compare(fScore1, fScore2);
            }
            // 2. alphabetic order
            else
            {
                string cand1 = ((CSpellScore)o1).GetCandStr();
                string cand2 = ((CSpellScore)o2).GetCandStr();
                @out = cand2.CompareTo(cand1);
            }
            return(@out);
        }