public int IndexOf(SynSet item) { return(List.IndexOf(item)); }
public void Remove(SynSet item) { isDirty = true; List.Remove(item); }
public bool Contains(SynSet item) { return(List.Contains(item)); }
public int Add(SynSet item) { isDirty = true; return(List.Add(item)); }
public void Insert(int index, SynSet item) { List.Insert(index, item); }
// From the WordNet Manual (http://wordnet.princeton.edu/man/wnsearch.3WN.html) // findtheinfo() is the primary search algorithm for use with database interface // applications. Search results are automatically formatted, and a pointer to the // text buffer is returned. All searches listed in WNHOME/include/wnconsts.h can be // done by findtheinfo(). void findtheinfo() { SynSet cursyn = null; Indexes ixs = new Indexes(word, pos); Index idx = null; int depth = sch.rec ? 1 : 0; senses = new SynSetList(); switch (sch.ptp.mnemonic) { case "OVERVIEW": WNOverview(); break; case "FREQ": if (countSenses == null) { countSenses = new ArrayList(); } while ((idx = ixs.next()) != null) { countSenses.Add(idx.offs.Length); buf += "Sense " + countSenses.Count + ": " + idx.offs.Length; } break; case "WNGREP": strings = WNDB.wngrep(word, pos); for (int wi = 0; wi < strings.Count; wi++) { buf += (string)strings[wi] + "\n"; } break; case "VERBGROUP": goto case "RELATIVES"; case "RELATIVES": while ((idx = ixs.next()) != null) { relatives(idx); } break; default: /* look at all spellings of word */ while ((idx = ixs.next()) != null) { /* Print extra sense msgs if looking at all senses */ if (whichsense == ALLSENSES) { buf += "\n"; } /* Go through all of the searchword's senses in the * database and perform the search requested. */ for (int sense = 0; sense < idx.offs.Length; sense++) { if (whichsense == ALLSENSES || whichsense == sense + 1) { prflag = false; /* Determine if this synset has already been done * with a different spelling. If so, skip it. */ for (int j = 0; j < senses.Count; j++) { SynSet ss = (SynSet)senses[j]; if (ss.hereiam == idx.offs[sense]) { goto skipit; } } cursyn = new SynSet(idx, sense, this); //TODO: moved senses.add(cursyn) from here to each case and handled it differently according to search - this handling needs to be verified to ensure the filter is not to limiting switch (sch.ptp.mnemonic) { case "ANTPTR": if (pos.name == "adj") { cursyn.traceAdjAnt(); } else { cursyn.tracePtrs(sch.ptp, pos, depth); } if (cursyn.isDirty) { // TDMS 25 Oct 2005 - restrict to relevant values cursyn.frames.Clear(); // TDMS 03 Jul 2006 - frames get added in wordnet.cs after filtering senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) * { // TDMS 25 Oct 2005 - restrict to relevant values * cursyn.frames.Clear(); // TDMS 03 Jul 2006 - frames get added in wordnet.cs after filtering * senses.Add(cursyn); * } */ // perform the senses restrictions based upon pos /* * switch(pos.name) { * case "verb": * if (cursyn.senses != null) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); * break; * * default: * if (cursyn.senses != null && cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); * break; * } */ break; case "COORDS": //eg. search for 'car', select Noun -> 'Coordinate Terms' cursyn.traceCoords(PointerType.of("HYPOPTR"), pos, depth); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "FRAMES": //eg. search for 'right', select Verb -> 'Sample Sentences' cursyn.strFrame(true); // TDMS 03 JUL 2006 fixed relevancy check if (cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values if (cursyn.isDirty) { senses.Add(cursyn); } /* * if (cursyn.frames.Count != 0) // TDMS 03 Jul 2006 - only add frame if there are any retrieved * senses.Add(cursyn); */ break; case "MERONYM": //eg. search for 'car', select Noun -> 'Meronym' senses.isDirty = false; cursyn.tracePtrs(PointerType.of("HASMEMBERPTR"), pos, depth); cursyn.tracePtrs(PointerType.of("HASSTUFFPTR"), pos, depth); cursyn.tracePtrs(PointerType.of("HASPARTPTR"), pos, depth); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "HOLONYM": //eg. search for 'car', select Noun -> 'Holonyms' cursyn.tracePtrs(PointerType.of("ISMEMBERPTR"), pos, depth); cursyn.tracePtrs(PointerType.of("ISSTUFFPTR"), pos, depth); cursyn.tracePtrs(PointerType.of("ISPARTPTR"), pos, depth); // if (cursyn.senses != null && cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values // senses.Add(cursyn); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "HMERONYM": //eg. search for 'car', select Noun -> 'Meronyms Tree' cursyn.partsAll(sch.ptp); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } // senses.Add(SearchTrack.ssParent); /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ // if (cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values // senses.Add(cursyn); break; case "HHOLONYM": cursyn.partsAll(sch.ptp); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null) // && cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "SEEALSOPTR": cursyn.seealso(); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "SIMPTR": goto case "HYPERPTR"; case "SYNS": goto case "HYPERPTR"; case "HYPERPTR": //eg. search for 'car', select Noun -> 'Synonyms/Hypernyms, ordered by estimated frequency' wordsFrom(cursyn); cursyn.strsns(sense + 1); prflag = true; cursyn.tracePtrs(sch.ptp, pos, depth); if (pos.name == "adj") { cursyn.tracePtrs(PointerType.of("PERTPTR"), pos, depth); cursyn.tracePtrs(PointerType.of("PPLPTR"), pos, depth); } else if (pos.name == "adv") { cursyn.tracePtrs(PointerType.of("PERTPTR"), pos, depth); } if (pos.name == "verb") { cursyn.strFrame(false); } if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } // senses.Add(cursyn); break; case "NOMINALIZATIONS": // 26/8/05 - changed "DERIVATION" to "NOMINALIZATIONS" - this needs to be verified // derivation - TDMS cursyn.tracenomins(sch.ptp); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.sense != 0) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "CLASSIFICATION": goto case "CLASS"; case "CLASS": //eg. search for 'car', select Noun -> 'Domain Terms' cursyn.traceclassif(sch.ptp, new SearchType(false, sch.ptp)); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; case "HYPOPTR": //eg. search for 'car', select Noun -> 'Hyponyms' cursyn.tracePtrs(sch.ptp, pos, depth); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) * { // TDMS 25 Oct 2005 - restrict to relevant values * cursyn.frames.Clear(); // TDMS 03 Jul 2006 - frames get added in wordnet.cs after filtering * senses.Add(cursyn); * } */ break; default: cursyn.tracePtrs(sch.ptp, pos, depth); if (cursyn.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values { senses.Add(cursyn); } /* * if (cursyn.senses != null ) * if (cursyn.senses.isDirty) // TDMS 25 Oct 2005 - restrict to relevant values * senses.Add(cursyn); */ break; } skipit :; } } } break; } }
void WNOverview() { Index idx; //senses = new ArrayList(); senses = new SynSetList(); Indexes ixs = new Indexes(word, pos); while ((idx = ixs.next()) != null) { buf += "\n"; /* Print synset for each sense. If requested, precede * synset with synset offset and/or lexical file information.*/ for (int sens = 0; sens < idx.offs.Length; sens++) { for (int j = 0; j < senses.Count; j++) { SynSet ss = (SynSet)senses[j]; if (ss.hereiam == idx.offs[sens]) { goto skipit; } } SynSet cursyn = new SynSet(idx, sens, this); bool svdflag = WNOpt.opt("-g").flag; WNOpt.opt("-g").flag = true; bool svaflag = WNOpt.opt("-a").flag; WNOpt.opt("-a").flag = WNOpt.opt("-A").flag; bool svoflag = WNOpt.opt("-o").flag; WNOpt.opt("-o").flag = WNOpt.opt("-O").flag; cursyn.str("" + (sens + 1) + ". ", "\n", 1, 0, 0, 0); WNOpt.opt("-g").flag = svdflag; WNOpt.opt("-a").flag = svaflag; WNOpt.opt("-o").flag = svoflag; wordsFrom(cursyn); cursyn.frames.Clear(); // TDMS 03 Jul 2006 - frames get added in wordnet.cs after filtering senses.Add(cursyn); skipit :; } /* Print sense summary message */ if (senses.Count > 0) { taggedSenses = 0; if (senses.Count == 1) { buf += "\nThe " + pos.name + " " + idx.wd + " has 1 sense"; } else { buf += "\nThe " + pos.name + " " + idx.wd + " has " + senses.Count + " senses"; } if (idx.tagsense_cnt > 0) { taggedSenses = idx.tagsense_cnt; buf += " (first " + idx.tagsense_cnt + " from tagged texts)\n"; } else { buf += " (no senses from tagged texts)\n"; } } } }
/// <summary> /// Trace adjective antonyms. /// </summary> internal void traceAdjAnt() { SynSet newsynptr; int i, j; AdjSynSetType anttype = AdjSynSetType.DirectAnt; SynSet simptr, antptr; string similar = " => "; /* This search is only applicable for ADJ synsets which have * either direct or indirect antonyms (not valid for pertainyms). */ if (sstype == AdjSynSetType.DirectAnt || sstype == AdjSynSetType.IndirectAnt) { strsns(sense + 1); search.buf += "\n"; /* if indirect, get cluster head */ if (sstype == AdjSynSetType.IndirectAnt) { anttype = AdjSynSetType.IndirectAnt; i = 0; while (ptrs[i].ptp.ident != SIMPTR) { i++; } newsynptr = new SynSet(ptrs[i].off, PartOfSpeech.of("adj"), this); } else { newsynptr = this; } /* find antonyms - if direct, make sure that the antonym * ptr we're looking at is from this word */ for (i = 0; i < newsynptr.ptrs.Length; i++) { if (newsynptr.ptrs[i].ptp.ident == ANTPTR && // TDMS 11 JUL 2006 // mnemonic=="ANTPTR" && ((anttype == AdjSynSetType.DirectAnt && newsynptr.ptrs[i].sce == newsynptr.whichword) || anttype == AdjSynSetType.IndirectAnt)) { /* read the antonym's synset and print it. if a * direct antonym, print it's satellites. */ antptr = new SynSet(newsynptr.ptrs[i].off, PartOfSpeech.of("adj"), this); search.wordsFrom(antptr); // TDMS 6 Oct 2005 - build hierarchical results if (this.senses == null) { this.senses = new SynSetList(); } //TODO: check the ptrs reference antptr.thisptr = newsynptr.ptrs[i]; // TDMS 17 Nov 2005 - add this pointer type this.senses.Add(antptr); if (anttype == AdjSynSetType.DirectAnt) { antptr.str("", "\n", 1, 0, 1, 1); for (j = 0; j < antptr.ptrs.Length; j++) { if (antptr.ptrs[j].ptp.ident == SIMPTR) // TDMS 11 JUL 2006 - changed to INT //.mnemonic=="SIMPTR") { simptr = new SynSet(antptr.ptrs[j].off, PartOfSpeech.of("adj"), this); search.wordsFrom(simptr); simptr.str(similar, "\n", 1, 0, 0, 1); // TDMS 6 Oct 2005 - build hierarchical results if (antptr.senses == null) { antptr.senses = new SynSetList(); } antptr.senses.Add(simptr); } } } else { antptr.strAnt("\n", anttype, 1); } } } } }
/// <summary> /// Trace classification. /// </summary> /// <param name="ptp"></param> /// <param name="stp"></param> internal void traceclassif(PointerType ptp, SearchType stp) //,PartOfSpeech fpos) { int j; int idx = 0; //int svwnsnsflag; string head = ""; int LASTTYPE = PointerType.of("CLASS").ident; int OVERVIEW = (LASTTYPE + 9); int MAXSEARCH = OVERVIEW; int CLASSIF_START = (MAXSEARCH + 1); int CLASSIF_CATEGORY = (CLASSIF_START); /* ;c */ int CLASSIF_USAGE = (CLASSIF_START + 1); /* ;u */ int CLASSIF_REGIONAL = (CLASSIF_START + 2); /* ;r */ int CLASSIF_END = CLASSIF_REGIONAL; int CLASS_START = (CLASSIF_END + 1); int CLASS_CATEGORY = (CLASS_START); /* -c */ int CLASS_USAGE = (CLASS_START + 1); /* -u */ int CLASS_REGIONAL = (CLASS_START + 2); /* -r */ int CLASS_END = CLASS_REGIONAL; //long prlist[1024]; ArrayList prlist = new ArrayList(); for (int i = 0; i < ptrs.Length; i++) { Pointer pt = ptrs[i]; if (((pt.ptp.ident >= CLASSIF_START) && (pt.ptp.ident <= CLASSIF_END) && stp.ptp.ident == PointerType.of("CLASSIFICATION").ident) || ((pt.ptp.ident >= CLASS_START) && (pt.ptp.ident <= CLASS_END) && stp.ptp.ident == PointerType.of("CLASS").ident)) { if (!search.prflag) { strsns(sense + 1); search.prflag = true; } SynSet cursyn = new SynSet(pt.off, pt.pos, this); // TDMS 6 Oct 2005 - build hierarchical results // TODO: verify this if (this.senses == null) { this.senses = new SynSetList(); } cursyn.thisptr = pt; // TDMS 17 Nov 2005 - add this pointer type this.senses.Add(cursyn); for (j = 0; j < idx; j++) { if (pt.off == Convert.ToInt16(prlist[j])) { break; } } if (j == idx) { prlist.Add(pt.off); spaces("TRACEP", 0); if (pt.ptp.ident == CLASSIF_CATEGORY) { head = "TOPIC->("; // WN2.1 - TDMS } // head = "CATEGORY->("; else if (pt.ptp.ident == CLASSIF_USAGE) { head = "USAGE->("; } else if (pt.ptp.ident == CLASSIF_REGIONAL) { head = "REGION->("; } else if (pt.ptp.ident == CLASS_CATEGORY) { head = "TOPIC_TERM->("; // WN2.1 - TDMS } // head = "CATEGORY_TERM->("; else if (pt.ptp.ident == CLASS_USAGE) { head = "USAGE_TERM->("; } else if (pt.ptp.ident == CLASS_REGIONAL) { head = "REGION_TERM->("; } head += pt.pos.name; head += ") "; //svwnsnsflag = wnsnsflag; //wnsnsflag = 1; // printsynset(head, cursyn, "\n", DEFOFF, ALLWORDS, // SKIP_ANTS, SKIP_MARKER); cursyn.str(head, "\n", 0, 0, 0, 0); //wnsnsflag = svwnsnsflag; } } } }
/// <summary> /// Traces pointer hierarchy. /// </summary> /// <param name="stp"></param> /// <param name="fpos"></param> /// <param name="depth"></param> internal void tracePtrs(SearchType stp, PartOfSpeech fpos, int depth) { int i; SynSet cursyn; PointerType ptp = stp.ptp; string prefix; int realptr; // WN2.1 for (i = 0; i < ptrs.Length; i++) { Pointer pt = ptrs[i]; // following if statement is WN2.1 - TDMS if ((ptp.ident == HYPERPTR && (pt.ptp.ident == HYPERPTR || pt.ptp.ident == INSTANCE)) || (ptp.ident == HYPOPTR && (pt.ptp.ident == HYPOPTR || pt.ptp.ident == INSTANCES)) || ((pt.ptp == ptp) && ((pt.sce == 0) || (pt.sce == whichword)))) { realptr = pt.ptp.ident; /* WN2.1 deal with INSTANCE */ if (!search.prflag) // print sense number and synset { strsns(sense + 1); } search.prflag = true; spaces("TRACEP", depth + (stp.rec?2:0)); // switch (ptp.mnemonic) // TDMS 11 JUL 2006 - changed switch to ident switch (pt.ptp.mnemonic) // TDMS - WN2.1 MOD switch (pt.ptp.ident) // TDMS 11 JUL 2006 - changed switch to ident { case PERTPTR: if (fpos.name == "adv") // TDMS "adverb") { prefix = "Derived from " + pt.pos.name + " "; } else { prefix = "Pertains to " + pt.pos.name + " "; } break; case ANTPTR: // TDMS 26/8/05 if (fpos.name == "adj") //TODO: which adjective will fall into the below? { prefix = "Antonym of "; } else { prefix = ""; } break; case PPLPTR: prefix = "Participle of verb"; break; case INSTANCE: prefix = "INSTANCE OF=> "; break; case INSTANCES: prefix = "HAS INSTANCE=> "; break; case HASMEMBERPTR: prefix = " HAS MEMBER: "; break; case HASSTUFFPTR: prefix = " HAS SUBSTANCE: "; break; case HASPARTPTR: prefix = " HAS PART: "; break; case ISMEMBERPTR: prefix = " MEMBER OF: "; break; case ISSTUFFPTR: // TDMS 26/8/05 prefix = " SUBSTANCE OF: "; break; case ISPARTPTR: // TDMS 26/8/05 prefix = " PART OF: "; break; default: prefix = "=> "; break; } /* Read synset pointed to */ cursyn = new SynSet(pt.off, pt.pos, this); search.wordsFrom(cursyn); // TDMS 6 Oct 2005 - build hierarchical results if (this.senses == null) { this.senses = new SynSetList(); } cursyn.thisptr = pt; // TDMS 17 Nov 2005 - add this pointer type this.senses.Add(cursyn); /* For Pertainyms and Participles pointing to a specific * sense, indicate the sense then retrieve the synset * pointed to and other info as determined by type. * Otherwise, just print the synset pointed to. */ if ((ptp.ident == PERTPTR || ptp.ident == PPLPTR) && pt.dst != 0) { string tbuf = " (Sense " + cursyn.getsearchsense(pt.dst) + ")"; cursyn.str(prefix, tbuf, 0, pt.dst, 0, 1); if (ptp.ident == PPLPTR) // adj pointing to verb { cursyn.str(" =>", "\n", 1, 0, 1, 1); cursyn.tracePtrs(PointerType.of("HYPERPTR"), cursyn.pos, 0); } else if (fpos.name == "adverb") // adverb pointing to adjective { cursyn.str(" =>", "\n", 0, 0, (pos.clss == "SATELLITE")?0:1, 1); // cursyn.traceptrs(HYPERPTR,pos,0); } else // adjective pointing to noun { cursyn.str(" =>", "\n", 1, 0, 1, 1); cursyn.tracePtrs(PointerType.of("HYPERPTR"), pos, 0); } } else { cursyn.str(prefix, "\n", 1, 0, 1, 1); } /* For HOLONYMS and MERONYMS, keep track of last one * printed in buffer so results can be truncated later. */ if (ptp.ident >= PointerType.of("ISMEMBERPTR").ident&& ptp.ident <= PointerType.of("HASPARTPTR").ident) { search.mark(); } if (depth > 0) { depth = cursyn.depthcheck(depth); cursyn.tracePtrs(ptp, cursyn.pos, depth + 1); } } } }
public SynSet(int off, PartOfSpeech p, SynSet fr) : this(off, p, "", fr) { }
public SynSet(int off, PartOfSpeech p, string wd, SynSet fr) : this(off, p, wd, fr.search, fr.sense) { }