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/*
 * Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
 * or more contributor license agreements. Licensed under the Elastic License
 * 2.0 and the Server Side Public License, v 1; you may not use this file except
 * in compliance with, at your election, the Elastic License 2.0 or the Server
 * Side Public License, v 1.
 */
package org.elasticsearch.xcontent;

import org.elasticsearch.core.Nullable;

import java.io.IOException;
import java.lang.reflect.Array;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Supplier;

import static java.util.Objects.requireNonNull;
import static org.elasticsearch.xcontent.XContentParser.Token.START_ARRAY;
import static org.elasticsearch.xcontent.XContentParser.Token.START_OBJECT;
import static org.elasticsearch.xcontent.XContentParser.Token.VALUE_BOOLEAN;
import static org.elasticsearch.xcontent.XContentParser.Token.VALUE_EMBEDDED_OBJECT;
import static org.elasticsearch.xcontent.XContentParser.Token.VALUE_NULL;
import static org.elasticsearch.xcontent.XContentParser.Token.VALUE_NUMBER;
import static org.elasticsearch.xcontent.XContentParser.Token.VALUE_STRING;

/**
 * A declarative, stateless parser that turns XContent into setter calls. A single parser should be defined for each object being parsed,
 * nested elements can be added via {@link #declareObject(BiConsumer, ContextParser, ParseField)} which should be satisfied where possible
 * by passing another instance of {@link ObjectParser}, this one customized for that Object.
 * 

* This class works well for object that do have a constructor argument or that can be built using information available from earlier in the * XContent. For objects that have constructors with required arguments that are specified on the same level as other fields see * {@link ConstructingObjectParser}. *

*

* Instances of {@link ObjectParser} should be setup by declaring a constant field for the parsers and declaring all fields in a static * block just below the creation of the parser. Like this: *

*
{@code
 *   private static final ObjectParser PARSER = new ObjectParser<>("thing", Thing::new));
 *   static {
 *       PARSER.declareInt(Thing::setMineral, new ParseField("mineral"));
 *       PARSER.declareInt(Thing::setFruit, new ParseField("fruit"));
 *   }
 * }
* It's highly recommended to use the high level declare methods like {@link #declareString(BiConsumer, ParseField)} instead of * {@link #declareField} which can be used to implement exceptional parsing operations not covered by the high level methods. */ public final class ObjectParser extends AbstractObjectParser implements BiFunction, ContextParser { private final List requiredFieldSets = new ArrayList<>(); private final List exclusiveFieldSets = new ArrayList<>(); /** * Adapts an array (or varags) setter into a list setter. */ public static BiConsumer> fromList( Class c, BiConsumer consumer ) { return (Value v, List l) -> { @SuppressWarnings("unchecked") ElementValue[] array = (ElementValue[]) Array.newInstance(c, l.size()); consumer.accept(v, l.toArray(array)); }; } private interface UnknownFieldParser { void acceptUnknownField( ObjectParser objectParser, String field, XContentLocation location, XContentParser parser, Value value, Context context ) throws IOException; } private static UnknownFieldParser ignoreUnknown() { return (op, f, l, p, v, c) -> p.skipChildren(); } private static UnknownFieldParser errorOnUnknown() { return (op, f, l, p, v, c) -> { throw new XContentParseException(l, ErrorOnUnknown.IMPLEMENTATION.errorMessage(op.name, f, op.fieldParserMap.keySet())); }; } /** * Defines how to consume a parsed undefined field */ public interface UnknownFieldConsumer { void accept(Value target, String field, Object value); } private static UnknownFieldParser consumeUnknownField(UnknownFieldConsumer consumer) { return (objectParser, field, location, parser, value, context) -> { XContentParser.Token t = parser.currentToken(); switch (t) { case VALUE_STRING: consumer.accept(value, field, parser.text()); break; case VALUE_NUMBER: consumer.accept(value, field, parser.numberValue()); break; case VALUE_BOOLEAN: consumer.accept(value, field, parser.booleanValue()); break; case VALUE_NULL: consumer.accept(value, field, null); break; case START_OBJECT: consumer.accept(value, field, parser.map()); break; case START_ARRAY: consumer.accept(value, field, parser.list()); break; default: throw new XContentParseException( parser.getTokenLocation(), "[" + objectParser.name + "] cannot parse field [" + field + "] with value type [" + t + "]" ); } }; } private static UnknownFieldParser unknownIsNamedXContent( Class categoryClass, BiConsumer consumer ) { return (objectParser, field, location, parser, value, context) -> { Category o; try { o = parser.namedObject(categoryClass, field, context); } catch (NamedObjectNotFoundException e) { Set candidates = new HashSet<>(objectParser.fieldParserMap.keySet()); e.getCandidates().forEach(candidates::add); String message = ErrorOnUnknown.IMPLEMENTATION.errorMessage(objectParser.name, field, candidates); throw new XContentParseException(location, message, e); } consumer.accept(value, o); }; } private final Map fieldParserMap = new HashMap<>(); private final String name; private final Function valueBuilder; private final UnknownFieldParser unknownFieldParser; /** * Creates a new ObjectParser. * @param name the parsers name, used to reference the parser in exceptions and messages. */ public ObjectParser(String name) { this(name, errorOnUnknown(), null); } /** * Creates a new ObjectParser. * @param name the parsers name, used to reference the parser in exceptions and messages. * @param valueSupplier A supplier that creates a new Value instance. Used when the parser is used as an inner object parser. */ public ObjectParser(String name, @Nullable Supplier valueSupplier) { this(name, errorOnUnknown(), wrapValueSupplier(valueSupplier)); } /** * Creates a new ObjectParser. * @param name the parsers name, used to reference the parser in exceptions and messages. * @param valueBuilder A function that creates a new Value from the parse Context. Used * when the parser is used as an inner object parser. */ public static ObjectParser fromBuilder(String name, Function valueBuilder) { requireNonNull(valueBuilder, "Use the single argument ctor instead"); return new ObjectParser(name, errorOnUnknown(), valueBuilder); } /** * Creates a new ObjectParser. * @param name the parsers name, used to reference the parser in exceptions and messages. * @param ignoreUnknownFields Should this parser ignore unknown fields? This should generally be set to true only when parsing * responses from external systems, never when parsing requests from users. * @param valueSupplier a supplier that creates a new Value instance used when the parser is used as an inner object parser. */ public ObjectParser(String name, boolean ignoreUnknownFields, @Nullable Supplier valueSupplier) { this(name, ignoreUnknownFields ? ignoreUnknown() : errorOnUnknown(), wrapValueSupplier(valueSupplier)); } private static Function wrapValueSupplier(@Nullable Supplier valueSupplier) { return valueSupplier == null ? c -> { throw new NullPointerException(); } : c -> valueSupplier.get(); } /** * Creates a new ObjectParser that consumes unknown fields as generic Objects. * @param name the parsers name, used to reference the parser in exceptions and messages. * @param unknownFieldConsumer how to consume parsed unknown fields * @param valueSupplier a supplier that creates a new Value instance used when the parser is used as an inner object parser. */ public ObjectParser(String name, UnknownFieldConsumer unknownFieldConsumer, @Nullable Supplier valueSupplier) { this(name, consumeUnknownField(unknownFieldConsumer), wrapValueSupplier(valueSupplier)); } /** * Creates a new ObjectParser that attempts to resolve unknown fields as {@link XContentParser#namedObject namedObjects}. * @param the type of named object that unknown fields are expected to be * @param name the parsers name, used to reference the parser in exceptions and messages. * @param categoryClass the type of named object that unknown fields are expected to be * @param unknownFieldConsumer how to consume parsed unknown fields * @param valueSupplier a supplier that creates a new Value instance used when the parser is used as an inner object parser. */ public ObjectParser( String name, Class categoryClass, BiConsumer unknownFieldConsumer, @Nullable Supplier valueSupplier ) { this(name, unknownIsNamedXContent(categoryClass, unknownFieldConsumer), wrapValueSupplier(valueSupplier)); } /** * Creates a new ObjectParser instance with a name. * @param name the parsers name, used to reference the parser in exceptions and messages. * @param unknownFieldParser how to parse unknown fields * @param valueBuilder builds the value from the context. Used when the ObjectParser is not passed a value. */ private ObjectParser( String name, UnknownFieldParser unknownFieldParser, @Nullable Function valueBuilder ) { this.name = name; this.unknownFieldParser = unknownFieldParser; this.valueBuilder = valueBuilder == null ? c -> { throw new NullPointerException("valueBuilder is not set"); } : valueBuilder; } /** * Parses a Value from the given {@link XContentParser} * @param parser the parser to build a value from * @param context context needed for parsing * @return a new value instance drawn from the provided value supplier on {@link #ObjectParser(String, Supplier)} * @throws IOException if an IOException occurs. */ @Override public Value parse(XContentParser parser, Context context) throws IOException { return parse(parser, valueBuilder.apply(context), context); } /** * Parses a Value from the given {@link XContentParser} * @param parser the parser to build a value from * @param value the value to fill from the parser * @param context a context that is passed along to all declared field parsers * @return the parsed value * @throws IOException if an IOException occurs. */ public Value parse(XContentParser parser, Value value, Context context) throws IOException { XContentParser.Token token; if (parser.currentToken() != XContentParser.Token.START_OBJECT) { token = parser.nextToken(); if (token != XContentParser.Token.START_OBJECT) { throwExpectedStartObject(parser, token); } } FieldParser fieldParser = null; String currentFieldName = null; XContentLocation currentPosition = null; final List requiredFields = this.requiredFieldSets.isEmpty() ? null : new ArrayList<>(this.requiredFieldSets); final List> exclusiveFields; if (exclusiveFieldSets.isEmpty()) { exclusiveFields = null; } else { exclusiveFields = new ArrayList<>(); for (int i = 0; i < this.exclusiveFieldSets.size(); i++) { exclusiveFields.add(new ArrayList<>()); } } while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) { if (token == XContentParser.Token.FIELD_NAME) { currentFieldName = parser.currentName(); currentPosition = parser.getTokenLocation(); fieldParser = fieldParserMap.get(currentFieldName); } else { if (currentFieldName == null) { throwNoFieldFound(parser); } if (fieldParser == null) { unknownFieldParser.acceptUnknownField(this, currentFieldName, currentPosition, parser, value, context); } else { fieldParser.assertSupports(name, parser, currentFieldName); if (requiredFields != null) { // Check to see if this field is a required field, if it is we can // remove the entry as the requirement is satisfied maybeMarkRequiredField(currentFieldName, requiredFields); } if (exclusiveFields != null) { // Check if this field is in an exclusive set, if it is then mark // it as seen. maybeMarkExclusiveField(currentFieldName, exclusiveFields); } parseSub(parser, fieldParser, currentFieldName, value, context); } fieldParser = null; } } // Check for a) multiple entries appearing in exclusive field sets and b) empty required field entries if (exclusiveFields != null) { ensureExclusiveFields(exclusiveFields); } if (requiredFields != null && requiredFields.isEmpty() == false) { throwMissingRequiredFields(requiredFields); } return value; } private void throwExpectedStartObject(XContentParser parser, XContentParser.Token token) { throw new XContentParseException(parser.getTokenLocation(), "[" + name + "] Expected START_OBJECT but was: " + token); } private void throwNoFieldFound(XContentParser parser) { throw new XContentParseException(parser.getTokenLocation(), "[" + name + "] no field found"); } private void throwMissingRequiredFields(List requiredFields) { final StringBuilder message = new StringBuilder(); for (String[] fields : requiredFields) { message.append("Required one of fields ").append(Arrays.toString(fields)).append(", but none were specified. "); } throw new IllegalArgumentException(message.toString()); } private void ensureExclusiveFields(List> exclusiveFields) { StringBuilder message = null; for (List fieldset : exclusiveFields) { if (fieldset.size() > 1) { if (message == null) { message = new StringBuilder(); } message.append("The following fields are not allowed together: ").append(fieldset).append(" "); } } if (message != null && message.length() > 0) { throw new IllegalArgumentException(message.toString()); } } private void maybeMarkExclusiveField(String currentFieldName, List> exclusiveFields) { for (int i = 0; i < this.exclusiveFieldSets.size(); i++) { for (String field : this.exclusiveFieldSets.get(i)) { if (field.equals(currentFieldName)) { exclusiveFields.get(i).add(currentFieldName); } } } } private void maybeMarkRequiredField(String currentFieldName, List requiredFields) { Iterator iter = requiredFields.iterator(); while (iter.hasNext()) { String[] requiredFieldNames = iter.next(); for (String field : requiredFieldNames) { if (field.equals(currentFieldName)) { iter.remove(); break; } } } } @Override public Value apply(XContentParser parser, Context context) { try { return parse(parser, context); } catch (IOException e) { throw new XContentParseException(parser.getTokenLocation(), "[" + name + "] failed to parse object", e); } } public interface Parser { void parse(XContentParser parser, Value value, Context context) throws IOException; } public void declareField(Parser p, ParseField parseField, ValueType type) { if (parseField == null) { throw new IllegalArgumentException("[parseField] is required"); } if (type == null) { throw new IllegalArgumentException("[type] is required"); } FieldParser fieldParser = new FieldParser(p, type.supportedTokens(), parseField, type); for (String fieldValue : parseField.getAllNamesIncludedDeprecated()) { fieldParserMap.putIfAbsent(fieldValue, fieldParser); } } @Override public void declareField(BiConsumer consumer, ContextParser parser, ParseField parseField, ValueType type) { if (consumer == null) { throw new IllegalArgumentException("[consumer] is required"); } if (parser == null) { throw new IllegalArgumentException("[parser] is required"); } declareField((p, v, c) -> consumer.accept(v, parser.parse(p, c)), parseField, type); } public void declareObjectOrDefault( BiConsumer consumer, BiFunction objectParser, Supplier defaultValue, ParseField field ) { declareField((p, v, c) -> { if (p.currentToken() == XContentParser.Token.VALUE_BOOLEAN) { if (p.booleanValue()) { consumer.accept(v, defaultValue.get()); } } else { consumer.accept(v, objectParser.apply(p, c)); } }, field, ValueType.OBJECT_OR_BOOLEAN); } @Override public void declareNamedObject(BiConsumer consumer, NamedObjectParser namedObjectParser, ParseField field) { BiFunction objectParser = (XContentParser p, Context c) -> { try { XContentParser.Token token = p.nextToken(); assert token == XContentParser.Token.FIELD_NAME; String currentName = p.currentName(); try { T namedObject = namedObjectParser.parse(p, c, currentName); // consume the end object token token = p.nextToken(); assert token == XContentParser.Token.END_OBJECT; return namedObject; } catch (Exception e) { throw rethrowFieldParseFailure(field, p, currentName, e); } } catch (IOException e) { throw wrapParseError(field, p, e, "error while parsing named object"); } }; declareField((XContentParser p, Value v, Context c) -> consumer.accept(v, objectParser.apply(p, c)), field, ValueType.OBJECT); } @Override public void declareNamedObjects( BiConsumer> consumer, NamedObjectParser namedObjectParser, Consumer orderedModeCallback, ParseField field ) { // This creates and parses the named object BiFunction objectParser = (XContentParser p, Context c) -> { if (p.currentToken() != XContentParser.Token.FIELD_NAME) { throw wrapCanBeObjectOrArrayOfObjects(field, p); } // This messy exception nesting has the nice side effect of telling the user which field failed to parse try { String currentName = p.currentName(); try { return namedObjectParser.parse(p, c, currentName); } catch (Exception e) { throw rethrowFieldParseFailure(field, p, currentName, e); } } catch (IOException e) { throw wrapParseError(field, p, e, "error while parsing"); } }; declareField((XContentParser p, Value v, Context c) -> { List fields = new ArrayList<>(); if (p.currentToken() == XContentParser.Token.START_OBJECT) { // Fields are just named entries in a single object while (p.nextToken() != XContentParser.Token.END_OBJECT) { fields.add(objectParser.apply(p, c)); } } else if (p.currentToken() == XContentParser.Token.START_ARRAY) { // Fields are objects in an array. Each object contains a named field. parseObjectsInArray(orderedModeCallback, field, objectParser, p, v, c, fields); } consumer.accept(v, fields); }, field, ValueType.OBJECT_ARRAY); } private void parseObjectsInArray( Consumer orderedModeCallback, ParseField field, BiFunction objectParser, XContentParser p, Value v, Context c, List fields ) throws IOException { orderedModeCallback.accept(v); XContentParser.Token token; while ((token = p.nextToken()) != XContentParser.Token.END_ARRAY) { if (token != XContentParser.Token.START_OBJECT) { throw wrapCanBeObjectOrArrayOfObjects(field, p); } p.nextToken(); // Move to the first field in the object fields.add(objectParser.apply(p, c)); p.nextToken(); // Move past the object, should be back to into the array if (p.currentToken() != XContentParser.Token.END_OBJECT) { throw wrapCanBeObjectOrArrayOfObjects(field, p); } } } private XContentParseException wrapCanBeObjectOrArrayOfObjects(ParseField field, XContentParser p) { return new XContentParseException( p.getTokenLocation(), "[" + field + "] can be a single object with any number of " + "fields or an array where each entry is an object with a single field" ); } private XContentParseException wrapParseError(ParseField field, XContentParser p, IOException e, String s) { return new XContentParseException(p.getTokenLocation(), "[" + field + "] " + s, e); } private XContentParseException rethrowFieldParseFailure(ParseField field, XContentParser p, String currentName, Exception e) { return new XContentParseException(p.getTokenLocation(), "[" + field + "] failed to parse field [" + currentName + "]", e); } @Override public void declareNamedObjects( BiConsumer> consumer, NamedObjectParser namedObjectParser, ParseField field ) { Consumer orderedModeCallback = (v) -> { throw new IllegalArgumentException("[" + field + "] doesn't support arrays. Use a single object with multiple fields."); }; declareNamedObjects(consumer, namedObjectParser, orderedModeCallback, field); } /** * Functional interface for instantiating and parsing named objects. See ObjectParserTests#NamedObject for the canonical way to * implement this for objects that themselves have a parser. */ @FunctionalInterface public interface NamedObjectParser { T parse(XContentParser p, Context c, String name) throws IOException; } /** * Get the name of the parser. */ @Override public String getName() { return name; } @Override public void declareRequiredFieldSet(String... requiredSet) { if (requiredSet.length == 0) { return; } this.requiredFieldSets.add(requiredSet); } @Override public void declareExclusiveFieldSet(String... exclusiveSet) { if (exclusiveSet.length == 0) { return; } this.exclusiveFieldSets.add(exclusiveSet); } private void parseArray(XContentParser parser, FieldParser fieldParser, String currentFieldName, Value value, Context context) { assert parser.currentToken() == XContentParser.Token.START_ARRAY : "Token was: " + parser.currentToken(); parseValue(parser, fieldParser, currentFieldName, value, context); } private void parseValue(XContentParser parser, FieldParser fieldParser, String currentFieldName, Value value, Context context) { try { fieldParser.parser.parse(parser, value, context); } catch (Exception ex) { throwFailedToParse(parser, currentFieldName, ex); } } private void throwFailedToParse(XContentParser parser, String currentFieldName, Exception ex) { throw new XContentParseException(parser.getTokenLocation(), "[" + name + "] failed to parse field [" + currentFieldName + "]", ex); } private void parseSub(XContentParser parser, FieldParser fieldParser, String currentFieldName, Value value, Context context) { final XContentParser.Token token = parser.currentToken(); switch (token) { case START_OBJECT: parseValue(parser, fieldParser, currentFieldName, value, context); /* * Well behaving parsers should consume the entire object but * asserting that they do that is not something we can do * efficiently here. Instead we can check that they end on an * END_OBJECT. They could end on the *wrong* end object and * this test won't catch them, but that is the price that we pay * for having a cheap test. */ if (parser.currentToken() != XContentParser.Token.END_OBJECT) { throwMustEndOn(currentFieldName, XContentParser.Token.END_OBJECT); } break; case START_ARRAY: parseArray(parser, fieldParser, currentFieldName, value, context); /* * Well behaving parsers should consume the entire array but * asserting that they do that is not something we can do * efficiently here. Instead we can check that they end on an * END_ARRAY. They could end on the *wrong* end array and * this test won't catch them, but that is the price that we pay * for having a cheap test. */ if (parser.currentToken() != XContentParser.Token.END_ARRAY) { throwMustEndOn(currentFieldName, XContentParser.Token.END_ARRAY); } break; case END_OBJECT: case END_ARRAY: case FIELD_NAME: throw throwUnexpectedToken(parser, token); case VALUE_STRING: case VALUE_NUMBER: case VALUE_BOOLEAN: case VALUE_EMBEDDED_OBJECT: case VALUE_NULL: parseValue(parser, fieldParser, currentFieldName, value, context); } } private void throwMustEndOn(String currentFieldName, XContentParser.Token token) { throw new IllegalStateException("parser for [" + currentFieldName + "] did not end on " + token); } private XContentParseException throwUnexpectedToken(XContentParser parser, XContentParser.Token token) { return new XContentParseException(parser.getTokenLocation(), "[" + name + "]" + token + " is unexpected"); } private class FieldParser { private final Parser parser; private final EnumSet supportedTokens; private final ParseField parseField; private final ValueType type; FieldParser(Parser parser, EnumSet supportedTokens, ParseField parseField, ValueType type) { this.parser = parser; this.supportedTokens = supportedTokens; this.parseField = parseField; this.type = type; } void assertSupports(String parserName, XContentParser xContentParser, String currentFieldName) { boolean match = parseField.match( parserName, xContentParser::getTokenLocation, currentFieldName, xContentParser.getDeprecationHandler() ); if (match == false) { throw new XContentParseException( xContentParser.getTokenLocation(), "[" + parserName + "] parsefield doesn't accept: " + currentFieldName ); } if (supportedTokens.contains(xContentParser.currentToken()) == false) { throw new XContentParseException( xContentParser.getTokenLocation(), "[" + parserName + "] " + currentFieldName + " doesn't support values of type: " + xContentParser.currentToken() ); } } @Override public String toString() { String[] deprecatedNames = parseField.getDeprecatedNames(); String allReplacedWith = parseField.getAllReplacedWith(); String deprecated = ""; if (deprecatedNames != null && deprecatedNames.length > 0) { deprecated = ", deprecated_names=" + Arrays.toString(deprecatedNames); } return "FieldParser{" + "preferred_name=" + parseField.getPreferredName() + ", supportedTokens=" + supportedTokens + deprecated + (allReplacedWith == null ? "" : ", replaced_with=" + allReplacedWith) + ", type=" + type.name() + '}'; } } public enum ValueType { STRING(VALUE_STRING), STRING_OR_NULL(VALUE_STRING, VALUE_NULL), FLOAT(VALUE_NUMBER, VALUE_STRING), FLOAT_OR_NULL(VALUE_NUMBER, VALUE_STRING, VALUE_NULL), DOUBLE(VALUE_NUMBER, VALUE_STRING), DOUBLE_OR_NULL(VALUE_NUMBER, VALUE_STRING, VALUE_NULL), LONG(VALUE_NUMBER, VALUE_STRING), LONG_OR_NULL(VALUE_NUMBER, VALUE_STRING, VALUE_NULL), INT(VALUE_NUMBER, VALUE_STRING), INT_OR_NULL(VALUE_NUMBER, VALUE_STRING, VALUE_NULL), BOOLEAN(VALUE_BOOLEAN, VALUE_STRING), BOOLEAN_OR_NULL(VALUE_BOOLEAN, VALUE_STRING, VALUE_NULL), STRING_ARRAY(START_ARRAY, VALUE_STRING), FLOAT_ARRAY(START_ARRAY, VALUE_NUMBER, VALUE_STRING), DOUBLE_ARRAY(START_ARRAY, VALUE_NUMBER, VALUE_STRING), LONG_ARRAY(START_ARRAY, VALUE_NUMBER, VALUE_STRING), INT_ARRAY(START_ARRAY, VALUE_NUMBER, VALUE_STRING), BOOLEAN_ARRAY(START_ARRAY, VALUE_BOOLEAN), OBJECT(START_OBJECT), OBJECT_OR_NULL(START_OBJECT, VALUE_NULL), OBJECT_ARRAY(START_OBJECT, START_ARRAY), OBJECT_ARRAY_OR_NULL(START_OBJECT, START_ARRAY, VALUE_NULL), OBJECT_OR_BOOLEAN(START_OBJECT, VALUE_BOOLEAN), OBJECT_OR_STRING(START_OBJECT, VALUE_STRING), OBJECT_OR_LONG(START_OBJECT, VALUE_NUMBER), OBJECT_ARRAY_BOOLEAN_OR_STRING(START_OBJECT, START_ARRAY, VALUE_BOOLEAN, VALUE_STRING), OBJECT_ARRAY_OR_STRING(START_OBJECT, START_ARRAY, VALUE_STRING), OBJECT_ARRAY_STRING_OR_NUMBER(START_OBJECT, START_ARRAY, VALUE_STRING, VALUE_NUMBER), VALUE(VALUE_BOOLEAN, VALUE_NULL, VALUE_EMBEDDED_OBJECT, VALUE_NUMBER, VALUE_STRING), VALUE_OBJECT_ARRAY(VALUE_BOOLEAN, VALUE_NULL, VALUE_EMBEDDED_OBJECT, VALUE_NUMBER, VALUE_STRING, START_OBJECT, START_ARRAY), VALUE_ARRAY(VALUE_BOOLEAN, VALUE_NULL, VALUE_NUMBER, VALUE_STRING, START_ARRAY); private final EnumSet tokens; ValueType(XContentParser.Token first, XContentParser.Token... rest) { this.tokens = EnumSet.of(first, rest); } public EnumSet supportedTokens() { return this.tokens; } } @Override public String toString() { return "ObjectParser{" + "name='" + name + '\'' + ", fields=" + fieldParserMap.values() + '}'; } }




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