public void init(SolrParams params) { this.params = params; String[] fields = params.getParams(TermsParams.TERMS_FIELD); if (fields != null) { for (String field : fields) { // TODO: not sure 128 is the best starting size // It use it because that is what is used for facets fieldmap.put(field, new HashMap<String, TermsResponse.Term>(128)); } } }
int resolveRegexpFlags(SolrParams params) { String[] flagParams = params.getParams(TermsParams.TERMS_REGEXP_FLAG); if (flagParams == null) { return 0; } int flags = 0; for (String flagParam : flagParams) { try { flags |= TermsParams.TermsRegexpFlag.valueOf(flagParam.toUpperCase(Locale.ROOT)).getValue(); } catch (IllegalArgumentException iae) { throw new SolrException( SolrException.ErrorCode.BAD_REQUEST, "Unknown terms regex flag '" + flagParam + "'"); } } return flags; }
@Override public void process(ResponseBuilder rb) throws IOException { SolrParams params = rb.req.getParams(); if (!params.getBool(TermsParams.TERMS, false)) return; String[] fields = params.getParams(TermsParams.TERMS_FIELD); NamedList<Object> termsResult = new SimpleOrderedMap<>(); rb.rsp.add("terms", termsResult); if (fields == null || fields.length == 0) return; int limit = params.getInt(TermsParams.TERMS_LIMIT, 10); if (limit < 0) { limit = Integer.MAX_VALUE; } String lowerStr = params.get(TermsParams.TERMS_LOWER); String upperStr = params.get(TermsParams.TERMS_UPPER); boolean upperIncl = params.getBool(TermsParams.TERMS_UPPER_INCLUSIVE, false); boolean lowerIncl = params.getBool(TermsParams.TERMS_LOWER_INCLUSIVE, true); boolean sort = !TermsParams.TERMS_SORT_INDEX.equals( params.get(TermsParams.TERMS_SORT, TermsParams.TERMS_SORT_COUNT)); int freqmin = params.getInt(TermsParams.TERMS_MINCOUNT, 1); int freqmax = params.getInt(TermsParams.TERMS_MAXCOUNT, UNLIMITED_MAX_COUNT); if (freqmax < 0) { freqmax = Integer.MAX_VALUE; } String prefix = params.get(TermsParams.TERMS_PREFIX_STR); String regexp = params.get(TermsParams.TERMS_REGEXP_STR); Pattern pattern = regexp != null ? Pattern.compile(regexp, resolveRegexpFlags(params)) : null; boolean raw = params.getBool(TermsParams.TERMS_RAW, false); final AtomicReader indexReader = rb.req.getSearcher().getAtomicReader(); Fields lfields = indexReader.fields(); for (String field : fields) { NamedList<Integer> fieldTerms = new NamedList<>(); termsResult.add(field, fieldTerms); Terms terms = lfields == null ? null : lfields.terms(field); if (terms == null) { // no terms for this field continue; } FieldType ft = raw ? null : rb.req.getSchema().getFieldTypeNoEx(field); if (ft == null) ft = new StrField(); // prefix must currently be text BytesRef prefixBytes = prefix == null ? null : new BytesRef(prefix); BytesRef upperBytes = null; if (upperStr != null) { upperBytes = new BytesRef(); ft.readableToIndexed(upperStr, upperBytes); } BytesRef lowerBytes; if (lowerStr == null) { // If no lower bound was specified, use the prefix lowerBytes = prefixBytes; } else { lowerBytes = new BytesRef(); if (raw) { // TODO: how to handle binary? perhaps we don't for "raw"... or if the field exists // perhaps we detect if the FieldType is non-character and expect hex if so? lowerBytes = new BytesRef(lowerStr); } else { lowerBytes = new BytesRef(); ft.readableToIndexed(lowerStr, lowerBytes); } } TermsEnum termsEnum = terms.iterator(null); BytesRef term = null; if (lowerBytes != null) { if (termsEnum.seekCeil(lowerBytes) == TermsEnum.SeekStatus.END) { termsEnum = null; } else { term = termsEnum.term(); // Only advance the enum if we are excluding the lower bound and the lower Term actually // matches if (lowerIncl == false && term.equals(lowerBytes)) { term = termsEnum.next(); } } } else { // position termsEnum on first term term = termsEnum.next(); } int i = 0; BoundedTreeSet<CountPair<BytesRef, Integer>> queue = (sort ? new BoundedTreeSet<CountPair<BytesRef, Integer>>(limit) : null); CharsRef external = new CharsRef(); while (term != null && (i < limit || sort)) { boolean externalized = false; // did we fill in "external" yet for this term? // stop if the prefix doesn't match if (prefixBytes != null && !StringHelper.startsWith(term, prefixBytes)) break; if (pattern != null) { // indexed text or external text? // TODO: support "raw" mode? ft.indexedToReadable(term, external); externalized = true; if (!pattern.matcher(external).matches()) { term = termsEnum.next(); continue; } } if (upperBytes != null) { int upperCmp = term.compareTo(upperBytes); // if we are past the upper term, or equal to it (when don't include upper) then stop. if (upperCmp > 0 || (upperCmp == 0 && !upperIncl)) break; } // This is a good term in the range. Check if mincount/maxcount conditions are satisfied. int docFreq = termsEnum.docFreq(); if (docFreq >= freqmin && docFreq <= freqmax) { // add the term to the list if (sort) { queue.add(new CountPair<>(BytesRef.deepCopyOf(term), docFreq)); } else { // TODO: handle raw somehow if (!externalized) { ft.indexedToReadable(term, external); } fieldTerms.add(external.toString(), docFreq); i++; } } term = termsEnum.next(); } if (sort) { for (CountPair<BytesRef, Integer> item : queue) { if (i >= limit) break; ft.indexedToReadable(item.key, external); fieldTerms.add(external.toString(), item.val); i++; } } } }