@Override public void checkCompatibility( MappedFieldType fieldType, List<String> conflicts, boolean strict) { super.checkCompatibility(fieldType, conflicts, strict); CompletionFieldType other = (CompletionFieldType) fieldType; if (analyzingSuggestLookupProvider.hasPayloads() != other.analyzingSuggestLookupProvider.hasPayloads()) { conflicts.add("mapper [" + names().fullName() + "] has different payload values"); } if (analyzingSuggestLookupProvider.getPreservePositionsIncrements() != other.analyzingSuggestLookupProvider.getPreservePositionsIncrements()) { conflicts.add( "mapper [" + names().fullName() + "] has different 'preserve_position_increments' values"); } if (analyzingSuggestLookupProvider.getPreserveSep() != other.analyzingSuggestLookupProvider.getPreserveSep()) { conflicts.add( "mapper [" + names().fullName() + "] has different 'preserve_separators' values"); } if (!ContextMapping.mappingsAreEqual(getContextMapping(), other.getContextMapping())) { conflicts.add("mapper [" + names().fullName() + "] has different 'context_mapping' values"); } }
@Override public void parse(ParseContext context) throws IOException { XContentParser parser = context.parser(); XContentParser.Token token = parser.currentToken(); String surfaceForm = null; BytesRef payload = null; long weight = -1; List<String> inputs = Lists.newArrayListWithExpectedSize(4); if (token == XContentParser.Token.VALUE_STRING) { inputs.add(parser.text()); } else { String currentFieldName = null; while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) { if (token == XContentParser.Token.FIELD_NAME) { currentFieldName = parser.currentName(); } else if ("payload".equals(currentFieldName)) { if (!isStoringPayloads()) { throw new MapperException("Payloads disabled in mapping"); } if (token == XContentParser.Token.START_OBJECT) { XContentBuilder payloadBuilder = XContentFactory.contentBuilder(parser.contentType()).copyCurrentStructure(parser); payload = payloadBuilder.bytes().toBytesRef(); payloadBuilder.close(); } } else if (token == XContentParser.Token.VALUE_STRING) { if ("output".equals(currentFieldName)) { surfaceForm = parser.text(); } if ("input".equals(currentFieldName)) { inputs.add(parser.text()); } } else if (token == XContentParser.Token.VALUE_NUMBER) { if ("weight".equals(currentFieldName)) { weight = parser.longValue(); // always parse a long to make sure we don't get the overflow // value if (weight < 0 || weight > Integer.MAX_VALUE) { throw new ElasticSearchIllegalArgumentException( "Weight must be in the interval [0..2147483647] but was " + weight); } } } else if (token == XContentParser.Token.START_ARRAY) { if ("input".equals(currentFieldName)) { while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) { inputs.add(parser.text()); } } } } } payload = payload == null ? EMPTY : payload; if (surfaceForm == null) { // no surface form use the input for (String input : inputs) { BytesRef suggestPayload = analyzingSuggestLookupProvider.buildPayload(new BytesRef(input), weight, payload); context.doc().add(getCompletionField(input, suggestPayload)); } } else { BytesRef suggestPayload = analyzingSuggestLookupProvider.buildPayload(new BytesRef(surfaceForm), weight, payload); for (String input : inputs) { context.doc().add(getCompletionField(input, suggestPayload)); } } }
public BytesRef buildPayload(BytesRef surfaceForm, long weight, BytesRef payload) throws IOException { return analyzingSuggestLookupProvider.buildPayload(surfaceForm, weight, payload); }
@Override public void parse(ParseContext context) throws IOException { XContentParser parser = context.parser(); XContentParser.Token token = parser.currentToken(); String surfaceForm = null; BytesRef payload = null; long weight = -1; List<String> inputs = Lists.newArrayListWithExpectedSize(4); SortedMap<String, ContextConfig> contextConfig = null; if (token == XContentParser.Token.VALUE_STRING) { inputs.add(parser.text()); multiFields.parse(this, context); } else { String currentFieldName = null; while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) { if (token == XContentParser.Token.FIELD_NAME) { currentFieldName = parser.currentName(); if (!ALLOWED_CONTENT_FIELD_NAMES.contains(currentFieldName)) { throw new ElasticsearchIllegalArgumentException( "Unknown field name[" + currentFieldName + "], must be one of " + ALLOWED_CONTENT_FIELD_NAMES); } } else if (Fields.CONTEXT.equals(currentFieldName)) { SortedMap<String, ContextConfig> configs = Maps.newTreeMap(); if (token == Token.START_OBJECT) { while ((token = parser.nextToken()) != Token.END_OBJECT) { String name = parser.text(); ContextMapping mapping = contextMapping.get(name); if (mapping == null) { throw new ElasticsearchParseException("context [" + name + "] is not defined"); } else { token = parser.nextToken(); configs.put(name, mapping.parseContext(context, parser)); } } contextConfig = Maps.newTreeMap(); for (ContextMapping mapping : contextMapping.values()) { ContextConfig config = configs.get(mapping.name()); contextConfig.put(mapping.name(), config == null ? mapping.defaultConfig() : config); } } else { throw new ElasticsearchParseException("context must be an object"); } } else if (Fields.CONTENT_FIELD_NAME_PAYLOAD.equals(currentFieldName)) { if (!isStoringPayloads()) { throw new MapperException("Payloads disabled in mapping"); } if (token == XContentParser.Token.START_OBJECT) { XContentBuilder payloadBuilder = XContentFactory.contentBuilder(parser.contentType()).copyCurrentStructure(parser); payload = payloadBuilder.bytes().toBytesRef(); payloadBuilder.close(); } else if (token.isValue()) { payload = parser.utf8BytesOrNull(); } else { throw new MapperException("payload doesn't support type " + token); } } else if (token == XContentParser.Token.VALUE_STRING) { if (Fields.CONTENT_FIELD_NAME_OUTPUT.equals(currentFieldName)) { surfaceForm = parser.text(); } if (Fields.CONTENT_FIELD_NAME_INPUT.equals(currentFieldName)) { inputs.add(parser.text()); } if (Fields.CONTENT_FIELD_NAME_WEIGHT.equals(currentFieldName)) { Number weightValue; try { weightValue = Long.parseLong(parser.text()); } catch (NumberFormatException e) { throw new ElasticsearchIllegalArgumentException( "Weight must be a string representing a numeric value, but was [" + parser.text() + "]"); } weight = weightValue.longValue(); // always parse a long to make sure we don't get overflow checkWeight(weight); } } else if (token == XContentParser.Token.VALUE_NUMBER) { if (Fields.CONTENT_FIELD_NAME_WEIGHT.equals(currentFieldName)) { NumberType numberType = parser.numberType(); if (NumberType.LONG != numberType && NumberType.INT != numberType) { throw new ElasticsearchIllegalArgumentException( "Weight must be an integer, but was [" + parser.numberValue() + "]"); } weight = parser.longValue(); // always parse a long to make sure we don't get overflow checkWeight(weight); } } else if (token == XContentParser.Token.START_ARRAY) { if (Fields.CONTENT_FIELD_NAME_INPUT.equals(currentFieldName)) { while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) { inputs.add(parser.text()); } } } } } if (contextConfig == null) { contextConfig = Maps.newTreeMap(); for (ContextMapping mapping : contextMapping.values()) { contextConfig.put(mapping.name(), mapping.defaultConfig()); } } final ContextMapping.Context ctx = new ContextMapping.Context(contextConfig, context.doc()); payload = payload == null ? EMPTY : payload; if (surfaceForm == null) { // no surface form use the input for (String input : inputs) { BytesRef suggestPayload = analyzingSuggestLookupProvider.buildPayload(new BytesRef(input), weight, payload); context.doc().add(getCompletionField(ctx, input, suggestPayload)); } } else { BytesRef suggestPayload = analyzingSuggestLookupProvider.buildPayload(new BytesRef(surfaceForm), weight, payload); for (String input : inputs) { context.doc().add(getCompletionField(ctx, input, suggestPayload)); } } }