public void collect3() throws Exception { String[] queryFileNames = MIRPath.QueryFileNames; String[] indexDirNames = MIRPath.IndexDirNames; String[] relDataFileNames = MIRPath.RelevanceFileNames; String[] docMapFileNames = MIRPath.DocIdMapFileNames; String[] queryDocFileNames = MIRPath.QueryDocFileNames; IndexSearcher[] indexSearchers = SearcherUtils.getIndexSearchers(indexDirNames); Analyzer analyzer = MedicalEnglishAnalyzer.getAnalyzer(); for (int i = 0; i < queryFileNames.length; i++) { List<BaseQuery> bqs = new ArrayList<BaseQuery>(); CounterMap<String, String> queryRels = new CounterMap<String, String>(); File queryFile = new File(queryFileNames[i]); File relvFile = new File(relDataFileNames[i]); if (i == 0) { bqs = QueryReader.readTrecCdsQueries(queryFileNames[i]); queryRels = RelevanceReader.readTrecCdsRelevances(relDataFileNames[i]); } else if (i == 1) { bqs = QueryReader.readClefEHealthQueries(queryFileNames[i]); queryRels = RelevanceReader.readClefEHealthRelevances(relDataFileNames[i]); } else if (i == 2) { bqs = QueryReader.readOhsumedQueries(queryFileNames[i]); queryRels = RelevanceReader.readOhsumedRelevances(relDataFileNames[i]); } else if (i == 3) { bqs = QueryReader.readTrecGenomicsQueries(queryFileNames[i]); queryRels = RelevanceReader.readTrecGenomicsRelevances(relDataFileNames[i]); } Counter<String> qWordCounts = new Counter<String>(); for (int j = 0; j < bqs.size(); j++) { BaseQuery bq = bqs.get(j); qWordCounts.incrementAll(AnalyzerUtils.getWordCounts(bq.getSearchText(), analyzer)); } System.out.println(qWordCounts); } }
public void collect2() throws Exception { String[] queryFileNames = MIRPath.QueryFileNames; String[] indexDirNames = MIRPath.IndexDirNames; String[] relDataFileNames = MIRPath.RelevanceFileNames; String[] docMapFileNames = MIRPath.DocIdMapFileNames; String[] queryDocFileNames = MIRPath.QueryDocFileNames; IndexSearcher[] indexSearchers = SearcherUtils.getIndexSearchers(indexDirNames); Analyzer analyzer = MedicalEnglishAnalyzer.getAnalyzer(); for (int i = 0; i < queryFileNames.length; i++) { List<BaseQuery> bqs = new ArrayList<BaseQuery>(); CounterMap<String, String> queryRels = new CounterMap<String, String>(); File queryFile = new File(queryFileNames[i]); File relvFile = new File(relDataFileNames[i]); if (i == 0) { bqs = QueryReader.readTrecCdsQueries(queryFileNames[i]); queryRels = RelevanceReader.readTrecCdsRelevances(relDataFileNames[i]); } else if (i == 1) { bqs = QueryReader.readClefEHealthQueries(queryFileNames[i]); queryRels = RelevanceReader.readClefEHealthRelevances(relDataFileNames[i]); } else if (i == 2) { bqs = QueryReader.readOhsumedQueries(queryFileNames[i]); queryRels = RelevanceReader.readOhsumedRelevances(relDataFileNames[i]); } else if (i == 3) { bqs = QueryReader.readTrecGenomicsQueries(queryFileNames[i]); queryRels = RelevanceReader.readTrecGenomicsRelevances(relDataFileNames[i]); } List<Counter<String>> qs = new ArrayList<Counter<String>>(); for (int j = 0; j < bqs.size(); j++) { BaseQuery bq = bqs.get(j); qs.add(AnalyzerUtils.getWordCounts(bq.getSearchText(), analyzer)); } BidMap<String, String> docIdMap = DocumentIdMapper.readDocumentIdMap(docMapFileNames[i]); // queryRelevances = RelevanceReader.filter(queryRelevances, docIdMap); // baseQueries = QueryReader.filter(baseQueries, queryRelevances); List<SparseVector> docRelData = DocumentIdMapper.mapDocIdsToIndexIds(bqs, queryRels, docIdMap); IndexReader indexReader = indexSearchers[i].getIndexReader(); if (bqs.size() != docRelData.size()) { throw new Exception(); } TextFileWriter writer = new TextFileWriter(queryDocFileNames[i]); for (int j = 0; j < bqs.size(); j++) { BaseQuery bq = bqs.get(j); SparseVector docRels = docRelData.get(j); Indexer<String> wordIndexer = new Indexer<String>(); Counter<String> qwcs = qs.get(j); SparseVector q = VectorUtils.toSparseVector(qs.get(j), wordIndexer, true); { SparseVector docFreqs = VectorUtils.toSparseVector( WordCountBox.getDocFreqs(indexReader, IndexFieldName.CONTENT, qs.get(j).keySet()), wordIndexer, true); computeTFIDFs(q, docFreqs, indexReader.maxDoc()); } WordCountBox wcb = WordCountBox.getWordCountBox(indexReader, docRels, wordIndexer); SparseMatrix sm = wcb.getDocWordCounts(); SparseVector docFreqs = wcb.getCollDocFreqs(); for (int k = 0; k < sm.rowSize(); k++) { int docId = sm.indexAtRowLoc(k); SparseVector sv = sm.vectorAtRowLoc(k); computeTFIDFs(sv, docFreqs, wcb.getNumDocsInCollection()); } writer.write(String.format("#Query\t%d\t%s\n", j + 1, bq.toString())); writer.write( String.format("#Query Words\t%s\n", toString(VectorUtils.toCounter(q, wordIndexer)))); docRels.sortByValue(); for (int k = 0; k < docRels.size(); k++) { int docId = docRels.indexAtLoc(k); double rel = docRels.valueAtLoc(k); if (rel == 0) { continue; } Document doc = indexReader.document(docId); List<Integer> ws = wcb.getDocWords().get(docId); StringBuffer sb = new StringBuffer(); for (int l = 0; l < ws.size(); l++) { int w = ws.get(l); boolean found = false; if (q.location(w) > -1) { found = true; } if (found) { sb.append( String.format( "%d\t%s\t%s\n", l + 1, wordIndexer.getObject(w), found ? 1 + "" : "")); } } String content = doc.get(IndexFieldName.CONTENT); SparseVector sv = sm.rowAlways(docId); if (sv.size() == 0) { continue; } writer.write(String.format("DOC-ID\t%d\nRelevance\t%d\n", docId, (int) rel)); writer.write(String.format("Loc\tWord\tMark\n%s\n", sb.toString())); } writer.write("\n"); } } }