//the core of pre-correction api
        public static List <TokenObj> Process(string inText, int maxSpRecursiveNo, Dictionary <string, string> infExpMap, bool debugFlag)
        {
            // 1. input
            List <TokenObj> inTokenList = TextObj.TextToTokenList(inText);

            // 2. process on each tokenObj
            return(ProcNdCorrector.Process(inTokenList, maxSpRecursiveNo, infExpMap, debugFlag));
        }
Esempio n. 2
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        // public method
        public static List <TokenObj> ProcessByTokenObj(List <TokenObj> inTokenList, CSpellApi cSpellApi, bool debugFlag)
        {
            // fucnMode
            int funcMode = cSpellApi.GetFuncMode();
            // init non-dictionary correction, this process is always on
            int ndMaxSplitNo = cSpellApi.GetCanNdMaxSplitNo();             // ND split
            Dictionary <string, string> infExpMap    = cSpellApi.GetInformalExpressionMap();
            List <TokenObj>             ndTokenList  = ProcNdCorrector.Process(inTokenList, ndMaxSplitNo, infExpMap, debugFlag);
            List <TokenObj>             outTokenList = null;

            switch (funcMode)
            {
            case CSpellApi.FUNC_MODE_ND:
                outTokenList = ndTokenList;
                break;

            // TBD, NW 1-to-1 and split need to be seperated
            case CSpellApi.FUNC_MODE_NW_1:
            case CSpellApi.FUNC_MODE_NW_S:
            case CSpellApi.FUNC_MODE_NW_S_1:
                // non-word one-to-one and split
                outTokenList = ProcNonWord.Process(ndTokenList, cSpellApi, debugFlag);
                break;

            case CSpellApi.FUNC_MODE_NW_M:
                // non-word merge
                outTokenList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                break;

            // non-word all
            case CSpellApi.FUNC_MODE_NW_A:
                // 1. non-word merge
                List <TokenObj> nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                outTokenList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                break;

            // real-word one-to-one
            case CSpellApi.FUNC_MODE_RW_1:
                // 1. non-word merge
                nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                List <TokenObj> nw1To1SplitList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                // 3. real-word, 1-to-1 ...
                outTokenList = ProcRealWord1To1.Process(nw1To1SplitList, cSpellApi, debugFlag);
                break;

            // real-word split
            case CSpellApi.FUNC_MODE_RW_S:
                // 1. non-word merge
                nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                nw1To1SplitList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                // 3. real-word one-to-one and split
                outTokenList = ProcRealWordSplit.Process(nw1To1SplitList, cSpellApi, debugFlag);
                break;

            // real-word merge
            case CSpellApi.FUNC_MODE_RW_M:
                // 1. non-word merge
                nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                nw1To1SplitList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                // 3. real-word merge
                outTokenList = ProcRealWordMerge.Process(nw1To1SplitList, cSpellApi, debugFlag);
                break;

            // real-word merge and split
            case CSpellApi.FUNC_MODE_RW_M_S:
                // 1. non-word merge
                nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                nw1To1SplitList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                // 3. real-word merge
                List <TokenObj> rwMergeList = ProcRealWordMerge.Process(nw1To1SplitList, cSpellApi, debugFlag);
                // 4. real-word split
                outTokenList = ProcRealWordSplit.Process(rwMergeList, cSpellApi, debugFlag);
                break;

            // real-word all: merge, split, 1-to-1
            case CSpellApi.FUNC_MODE_RW_A:
                // 1. non-word merge
                nwMergeList = ProcNonWordMerge.Process(ndTokenList, cSpellApi, debugFlag);
                // 2. non-word one-to-one and split
                nw1To1SplitList = ProcNonWord.Process(nwMergeList, cSpellApi, debugFlag);
                // 3. real-word merge
                rwMergeList = ProcRealWordMerge.Process(nw1To1SplitList, cSpellApi, debugFlag);
                // 4. real-word split
                List <TokenObj> rwSplitList = ProcRealWordSplit.Process(rwMergeList, cSpellApi, debugFlag);
                // 5. real-word, 1-to-1
                outTokenList = ProcRealWord1To1.Process(rwSplitList, cSpellApi, debugFlag);
                break;
            }
            return(outTokenList);
        }