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package com.signalfx.shaded.fasterxml.jackson.databind.deser.std;

import java.io.IOException;
import java.math.BigDecimal;
import java.util.Arrays;

import com.signalfx.shaded.fasterxml.jackson.core.*;

import com.signalfx.shaded.fasterxml.jackson.databind.*;
import com.signalfx.shaded.fasterxml.jackson.databind.cfg.DatatypeFeatures;
import com.signalfx.shaded.fasterxml.jackson.databind.cfg.JsonNodeFeature;
import com.signalfx.shaded.fasterxml.jackson.databind.deser.ContextualDeserializer;
import com.signalfx.shaded.fasterxml.jackson.databind.jsontype.TypeDeserializer;
import com.signalfx.shaded.fasterxml.jackson.databind.node.*;
import com.signalfx.shaded.fasterxml.jackson.databind.type.LogicalType;
import com.signalfx.shaded.fasterxml.jackson.databind.util.RawValue;

/**
 * Deserializer that can build instances of {@link JsonNode} from any
 * JSON content, using appropriate {@link JsonNode} type.
 *

* Rewritten in Jackson 2.13 to avoid recursion and allow handling of * very deeply nested structures. */ @SuppressWarnings("serial") public class JsonNodeDeserializer extends BaseNodeDeserializer { /** * Singleton instance of generic deserializer for {@link JsonNode}. * Only used for types other than JSON Object and Array. */ private final static JsonNodeDeserializer instance = new JsonNodeDeserializer(); protected JsonNodeDeserializer() { // `null` means that explicit "merge" is honored and may or may not work, but // that per-type and global defaults do not enable merging. This because // some node types (Object, Array) do support, others don't. super(JsonNode.class, null); } protected JsonNodeDeserializer(JsonNodeDeserializer base, boolean mergeArrays, boolean mergeObjects) { super(base, mergeArrays, mergeObjects); } @Override protected JsonDeserializer _createWithMerge(boolean mergeArrays, boolean mergeObjects) { return new JsonNodeDeserializer(this, mergeArrays, mergeObjects); } /** * Factory method for accessing deserializer for specific node type */ public static JsonDeserializer getDeserializer(Class nodeClass) { if (nodeClass == ObjectNode.class) { return ObjectDeserializer.getInstance(); } if (nodeClass == ArrayNode.class) { return ArrayDeserializer.getInstance(); } // For others, generic one works fine return instance; } /* /********************************************************************** /* Actual deserialization method implementations /********************************************************************** */ @Override public JsonNode getNullValue(DeserializationContext ctxt) { return ctxt.getNodeFactory().nullNode(); } /** * Overridden variant to ensure that absent values are NOT coerced into * {@code NullNode}s, unlike incoming {@code null} values. */ @Override // since 2.13 public Object getAbsentValue(DeserializationContext ctxt) { return null; } /** * Implementation that will produce types of any JSON nodes; not just one * deserializer is registered to handle (in case of more specialized handler). * Overridden by typed sub-classes for more thorough checking */ @Override public JsonNode deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { final ContainerStack stack = new ContainerStack(); final JsonNodeFactory nodeF = ctxt.getNodeFactory(); switch (p.currentTokenId()) { case JsonTokenId.ID_START_OBJECT: return _deserializeContainerNoRecursion(p, ctxt, nodeF, stack, nodeF.objectNode()); case JsonTokenId.ID_END_OBJECT: return nodeF.objectNode(); case JsonTokenId.ID_START_ARRAY: return _deserializeContainerNoRecursion(p, ctxt, nodeF, stack, nodeF.arrayNode()); case JsonTokenId.ID_FIELD_NAME: return _deserializeObjectAtName(p, ctxt, nodeF, stack); default: } return _deserializeAnyScalar(p, ctxt); } @Override public Boolean supportsUpdate(DeserializationConfig config) { return _supportsUpdates; } /* /********************************************************************** /* Specific instances for more accurate types /********************************************************************** */ /** * Implementation used when declared type is specifically {@link ObjectNode}. */ final static class ObjectDeserializer extends BaseNodeDeserializer { private static final long serialVersionUID = 1L; protected final static ObjectDeserializer _instance = new ObjectDeserializer(); protected ObjectDeserializer() { super(ObjectNode.class, true); } public static ObjectDeserializer getInstance() { return _instance; } protected ObjectDeserializer(ObjectDeserializer base, boolean mergeArrays, boolean mergeObjects) { super(base, mergeArrays, mergeObjects); } @Override protected JsonDeserializer _createWithMerge(boolean mergeArrays, boolean mergeObjects) { return new ObjectDeserializer(this, mergeArrays, mergeObjects); } @Override public ObjectNode deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { final JsonNodeFactory nodeF = ctxt.getNodeFactory(); if (p.isExpectedStartObjectToken()) { final ObjectNode root = nodeF.objectNode(); _deserializeContainerNoRecursion(p, ctxt, nodeF, new ContainerStack(), root); return root; } if (p.hasToken(JsonToken.FIELD_NAME)) { return _deserializeObjectAtName(p, ctxt, nodeF, new ContainerStack()); } // 23-Sep-2015, tatu: Ugh. We may also be given END_OBJECT (similar to FIELD_NAME), // if caller has advanced to the first token of Object, but for empty Object if (p.hasToken(JsonToken.END_OBJECT)) { return nodeF.objectNode(); } return (ObjectNode) ctxt.handleUnexpectedToken(ObjectNode.class, p); } /** * Variant needed to support both root-level `updateValue()` and merging. * * @since 2.9 */ @Override public ObjectNode deserialize(JsonParser p, DeserializationContext ctxt, ObjectNode node) throws IOException { if (p.isExpectedStartObjectToken() || p.hasToken(JsonToken.FIELD_NAME)) { return (ObjectNode) updateObject(p, ctxt, (ObjectNode) node, new ContainerStack()); } return (ObjectNode) ctxt.handleUnexpectedToken(ObjectNode.class, p); } } /** * Implementation used when declared type is specifically {@link ArrayNode}. */ final static class ArrayDeserializer extends BaseNodeDeserializer { private static final long serialVersionUID = 1L; protected final static ArrayDeserializer _instance = new ArrayDeserializer(); protected ArrayDeserializer() { super(ArrayNode.class, true); } public static ArrayDeserializer getInstance() { return _instance; } protected ArrayDeserializer(ArrayDeserializer base, boolean mergeArrays, boolean mergeObjects) { super(base, mergeArrays, mergeObjects); } @Override protected JsonDeserializer _createWithMerge(boolean mergeArrays, boolean mergeObjects) { return new ArrayDeserializer(this, mergeArrays, mergeObjects); } @Override public ArrayNode deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { if (p.isExpectedStartArrayToken()) { final JsonNodeFactory nodeF = ctxt.getNodeFactory(); final ArrayNode arrayNode = nodeF.arrayNode(); _deserializeContainerNoRecursion(p, ctxt, nodeF, new ContainerStack(), arrayNode); return arrayNode; } return (ArrayNode) ctxt.handleUnexpectedToken(ArrayNode.class, p); } /** * Variant needed to support both root-level {@code updateValue()} and merging. */ @Override public ArrayNode deserialize(JsonParser p, DeserializationContext ctxt, ArrayNode arrayNode) throws IOException { if (p.isExpectedStartArrayToken()) { _deserializeContainerNoRecursion(p, ctxt, ctxt.getNodeFactory(), new ContainerStack(), arrayNode); return arrayNode; } return (ArrayNode) ctxt.handleUnexpectedToken(ArrayNode.class, p); } } } /** * Base class for all actual {@link JsonNode} deserializer implementations. *

* Starting with Jackson 2.13 uses iteration instead of recursion: this allows * handling of very deeply nested input structures. */ @SuppressWarnings("serial") abstract class BaseNodeDeserializer extends StdDeserializer implements ContextualDeserializer { protected final Boolean _supportsUpdates; protected final boolean _mergeArrays; protected final boolean _mergeObjects; public BaseNodeDeserializer(Class vc, Boolean supportsUpdates) { super(vc); _supportsUpdates = supportsUpdates; _mergeArrays = true; _mergeObjects = true; } protected BaseNodeDeserializer(BaseNodeDeserializer base, boolean mergeArrays, boolean mergeObjects) { super(base); _supportsUpdates = base._supportsUpdates; _mergeArrays = mergeArrays; _mergeObjects = mergeObjects; } @Override public Object deserializeWithType(JsonParser p, DeserializationContext ctxt, TypeDeserializer typeDeserializer) throws IOException { // Output can be as JSON Object, Array or scalar: no way to know a priori: return typeDeserializer.deserializeTypedFromAny(p, ctxt); } @Override // since 2.12 public LogicalType logicalType() { return LogicalType.Untyped; } // 07-Nov-2014, tatu: When investigating [databind#604], realized that it makes // sense to also mark this is cachable, since lookup not exactly free, and // since it's not uncommon to "read anything" @Override public boolean isCachable() { return true; } @Override // since 2.9 public Boolean supportsUpdate(DeserializationConfig config) { return _supportsUpdates; } @Override // @since 2.14 public JsonDeserializer createContextual(DeserializationContext ctxt, BeanProperty property) throws JsonMappingException { // 13-Jun-2022, tatu: Should we care about property? For now, let's not yet. // (merge info there accessible via "property.getMetadata().getMergeInfo()") final DeserializationConfig cfg = ctxt.getConfig(); Boolean mergeArr = cfg.getDefaultMergeable(ArrayNode.class); Boolean mergeObj = cfg.getDefaultMergeable(ObjectNode.class); Boolean mergeNode = cfg.getDefaultMergeable(JsonNode.class); final boolean mergeArrays = _shouldMerge(mergeArr, mergeNode); final boolean mergeObjects = _shouldMerge(mergeObj, mergeNode); if ((mergeArrays != _mergeArrays) || (mergeObjects != _mergeObjects)) { return _createWithMerge(mergeArrays, mergeObjects); } return this; } private static boolean _shouldMerge(Boolean specificMerge, Boolean generalMerge) { if (specificMerge != null) { return specificMerge.booleanValue(); } if (generalMerge != null) { return generalMerge.booleanValue(); } return true; } // @since 2.14 protected abstract JsonDeserializer _createWithMerge(boolean mergeArrays, boolean mergeObjects); /* /********************************************************************** /* Duplicate handling /********************************************************************** */ /** * Method called when there is a duplicate value for a field. * By default we don't care, and the last value is used. * Can be overridden to provide alternate handling, such as throwing * an exception, or choosing different strategy for combining values * or choosing which one to keep. * * @param fieldName Name of the field for which duplicate value was found * @param objectNode Object node that contains values * @param oldValue Value that existed for the object node before newValue * was added * @param newValue Newly added value just added to the object node */ protected void _handleDuplicateField(JsonParser p, DeserializationContext ctxt, JsonNodeFactory nodeFactory, String fieldName, ObjectNode objectNode, JsonNode oldValue, JsonNode newValue) throws IOException { // [databind#237]: Report an error if asked to do so: if (ctxt.isEnabled(DeserializationFeature.FAIL_ON_READING_DUP_TREE_KEY)) { // 11-Sep-2019, tatu: Can not pass "property name" because we may be // missing enclosing JSON content context... // ctxt.reportPropertyInputMismatch(JsonNode.class, fieldName, ctxt.reportInputMismatch(JsonNode.class, "Duplicate field '%s' for `ObjectNode`: not allowed when `DeserializationFeature.FAIL_ON_READING_DUP_TREE_KEY` enabled", fieldName); } // [databind#2732]: Special case for XML; automatically coerce into `ArrayNode` if (ctxt.isEnabled(StreamReadCapability.DUPLICATE_PROPERTIES)) { // Note that ideally we wouldn't have to shuffle things but... Map.putIfAbsent() // only added in JDK 8, to efficiently check for add. So... if (oldValue.isArray()) { // already was array, to append ((ArrayNode) oldValue).add(newValue); objectNode.replace(fieldName, oldValue); } else { // was not array, convert ArrayNode arr = nodeFactory.arrayNode(); arr.add(oldValue); arr.add(newValue); objectNode.replace(fieldName, arr); } } } /* /********************************************************************** /* Helper methods, deserialization /********************************************************************** */ /** * Alternate deserialization method used when parser already points to first * FIELD_NAME and not START_OBJECT. */ protected final ObjectNode _deserializeObjectAtName(JsonParser p, DeserializationContext ctxt, final JsonNodeFactory nodeFactory, final ContainerStack stack) throws IOException { final ObjectNode node = nodeFactory.objectNode(); String key = p.currentName(); for (; key != null; key = p.nextFieldName()) { JsonNode value; JsonToken t = p.nextToken(); if (t == null) { // can this ever occur? t = JsonToken.NOT_AVAILABLE; // can this ever occur? } switch (t.id()) { case JsonTokenId.ID_START_OBJECT: value = _deserializeContainerNoRecursion(p, ctxt, nodeFactory, stack, nodeFactory.objectNode()); break; case JsonTokenId.ID_START_ARRAY: value = _deserializeContainerNoRecursion(p, ctxt, nodeFactory, stack, nodeFactory.arrayNode()); break; default: value = _deserializeAnyScalar(p, ctxt); } JsonNode old = node.replace(key, value); if (old != null) { _handleDuplicateField(p, ctxt, nodeFactory, key, node, old, value); } } return node; } /** * Alternate deserialization method that is to update existing {@link ObjectNode} * if possible. * * @since 2.9 */ protected final JsonNode updateObject(JsonParser p, DeserializationContext ctxt, final ObjectNode node, final ContainerStack stack) throws IOException { String key; if (p.isExpectedStartObjectToken()) { key = p.nextFieldName(); } else { if (!p.hasToken(JsonToken.FIELD_NAME)) { return deserialize(p, ctxt); } key = p.currentName(); } final JsonNodeFactory nodeFactory = ctxt.getNodeFactory(); for (; key != null; key = p.nextFieldName()) { // If not, fall through to regular handling JsonToken t = p.nextToken(); // First: see if we can merge things: JsonNode old = node.get(key); if (old != null) { if (old instanceof ObjectNode) { // [databind#3056]: merging only if had Object and // getting an Object if ((t == JsonToken.START_OBJECT) && _mergeObjects) { JsonNode newValue = updateObject(p, ctxt, (ObjectNode) old, stack); if (newValue != old) { node.set(key, newValue); } continue; } } else if (old instanceof ArrayNode) { // [databind#3056]: related to Object handling, ensure // Array values also match for mergeability if ((t == JsonToken.START_ARRAY) && _mergeArrays) { // 28-Mar-2021, tatu: We'll only append entries so not very different // from "regular" deserializeArray... _deserializeContainerNoRecursion(p, ctxt, nodeFactory, stack, (ArrayNode) old); continue; } } } if (t == null) { // can this ever occur? t = JsonToken.NOT_AVAILABLE; } JsonNode value; switch (t.id()) { case JsonTokenId.ID_START_OBJECT: value = _deserializeContainerNoRecursion(p, ctxt, nodeFactory, stack, nodeFactory.objectNode()); break; case JsonTokenId.ID_START_ARRAY: value = _deserializeContainerNoRecursion(p, ctxt, nodeFactory, stack, nodeFactory.arrayNode()); break; case JsonTokenId.ID_STRING: value = nodeFactory.textNode(p.getText()); break; case JsonTokenId.ID_NUMBER_INT: value = _fromInt(p, ctxt, nodeFactory); break; case JsonTokenId.ID_TRUE: value = nodeFactory.booleanNode(true); break; case JsonTokenId.ID_FALSE: value = nodeFactory.booleanNode(false); break; case JsonTokenId.ID_NULL: // 20-Mar-2022, tatu: [databind#3421] Allow skipping `null`s from JSON if (!ctxt.isEnabled(JsonNodeFeature.READ_NULL_PROPERTIES)) { continue; } value = nodeFactory.nullNode(); break; default: value = _deserializeRareScalar(p, ctxt); } // 15-Feb-2021, tatu: I don't think this should have been called // on update case (was until 2.12.2) and was simply result of // copy-paste. /* if (old != null) { _handleDuplicateField(p, ctxt, nodeFactory, key, node, old, value); } */ node.set(key, value); } return node; } // Non-recursive alternative, used beyond certain nesting level // @since 2.13.0 protected final ContainerNode _deserializeContainerNoRecursion(JsonParser p, DeserializationContext ctxt, JsonNodeFactory nodeFactory, ContainerStack stack, final ContainerNode root) throws IOException { ContainerNode curr = root; final int intCoercionFeats = ctxt.getDeserializationFeatures() & F_MASK_INT_COERCIONS; outer_loop: do { if (curr instanceof ObjectNode) { ObjectNode currObject = (ObjectNode) curr; String propName = p.nextFieldName(); objectLoop: for (; propName != null; propName = p.nextFieldName()) { JsonNode value; JsonToken t = p.nextToken(); if (t == null) { // unexpected end-of-input (or bad buffering?) t = JsonToken.NOT_AVAILABLE; // to trigger an exception } switch (t.id()) { case JsonTokenId.ID_START_OBJECT: { ObjectNode newOb = nodeFactory.objectNode(); JsonNode old = currObject.replace(propName, newOb); if (old != null) { _handleDuplicateField(p, ctxt, nodeFactory, propName, currObject, old, newOb); } stack.push(curr); curr = currObject = newOb; // We can actually take a short-cut with nested Objects... continue objectLoop; } case JsonTokenId.ID_START_ARRAY: { ArrayNode newOb = nodeFactory.arrayNode(); JsonNode old = currObject.replace(propName, newOb); if (old != null) { _handleDuplicateField(p, ctxt, nodeFactory, propName, currObject, old, newOb); } stack.push(curr); curr = newOb; } continue outer_loop; case JsonTokenId.ID_STRING: value = nodeFactory.textNode(p.getText()); break; case JsonTokenId.ID_NUMBER_INT: value = _fromInt(p, intCoercionFeats, nodeFactory); break; case JsonTokenId.ID_NUMBER_FLOAT: value = _fromFloat(p, ctxt, nodeFactory); break; case JsonTokenId.ID_TRUE: value = nodeFactory.booleanNode(true); break; case JsonTokenId.ID_FALSE: value = nodeFactory.booleanNode(false); break; case JsonTokenId.ID_NULL: // 20-Mar-2022, tatu: [databind#3421] Allow skipping `null`s from JSON if (!ctxt.isEnabled(JsonNodeFeature.READ_NULL_PROPERTIES)) { continue; } value = nodeFactory.nullNode(); break; default: value = _deserializeRareScalar(p, ctxt); } JsonNode old = currObject.replace(propName, value); if (old != null) { _handleDuplicateField(p, ctxt, nodeFactory, propName, currObject, old, value); } } // reached not-property-name, should be END_OBJECT (verify?) } else { // Otherwise we must have an array final ArrayNode currArray = (ArrayNode) curr; arrayLoop: while (true) { JsonToken t = p.nextToken(); if (t == null) { // unexpected end-of-input (or bad buffering?) t = JsonToken.NOT_AVAILABLE; // to trigger an exception } switch (t.id()) { case JsonTokenId.ID_START_OBJECT: stack.push(curr); curr = nodeFactory.objectNode(); currArray.add(curr); continue outer_loop; case JsonTokenId.ID_START_ARRAY: stack.push(curr); curr = nodeFactory.arrayNode(); currArray.add(curr); continue outer_loop; case JsonTokenId.ID_END_ARRAY: break arrayLoop; case JsonTokenId.ID_STRING: currArray.add(nodeFactory.textNode(p.getText())); continue arrayLoop; case JsonTokenId.ID_NUMBER_INT: currArray.add(_fromInt(p, intCoercionFeats, nodeFactory)); continue arrayLoop; case JsonTokenId.ID_NUMBER_FLOAT: currArray.add(_fromFloat(p, ctxt, nodeFactory)); continue arrayLoop; case JsonTokenId.ID_TRUE: currArray.add(nodeFactory.booleanNode(true)); continue arrayLoop; case JsonTokenId.ID_FALSE: currArray.add(nodeFactory.booleanNode(false)); continue arrayLoop; case JsonTokenId.ID_NULL: currArray.add(nodeFactory.nullNode()); continue arrayLoop; default: currArray.add(_deserializeRareScalar(p, ctxt)); continue arrayLoop; } } // Reached end of array (or input), so... } // Either way, Object or Array ended, return up nesting level: curr = stack.popOrNull(); } while (curr != null); return root; } // Was called "deserializeAny()" in 2.12 and prior protected final JsonNode _deserializeAnyScalar(JsonParser p, DeserializationContext ctxt) throws IOException { final JsonNodeFactory nodeF = ctxt.getNodeFactory(); switch (p.currentTokenId()) { case JsonTokenId.ID_END_OBJECT: return nodeF.objectNode(); case JsonTokenId.ID_STRING: return nodeF.textNode(p.getText()); case JsonTokenId.ID_NUMBER_INT: return _fromInt(p, ctxt, nodeF); case JsonTokenId.ID_NUMBER_FLOAT: return _fromFloat(p, ctxt, nodeF); case JsonTokenId.ID_TRUE: return nodeF.booleanNode(true); case JsonTokenId.ID_FALSE: return nodeF.booleanNode(false); case JsonTokenId.ID_NULL: return nodeF.nullNode(); case JsonTokenId.ID_EMBEDDED_OBJECT: return _fromEmbedded(p, ctxt); // Caller should check for anything else default: } return (JsonNode) ctxt.handleUnexpectedToken(handledType(), p); } protected final JsonNode _deserializeRareScalar(JsonParser p, DeserializationContext ctxt) throws IOException { // 28-Mar-2021, tatu: Only things that caller does not check switch (p.currentTokenId()) { case JsonTokenId.ID_END_OBJECT: // for empty JSON Objects we may point to this? return ctxt.getNodeFactory().objectNode(); case JsonTokenId.ID_NUMBER_FLOAT: return _fromFloat(p, ctxt, ctxt.getNodeFactory()); case JsonTokenId.ID_EMBEDDED_OBJECT: return _fromEmbedded(p, ctxt); // Caller should check for anything else default: } return (JsonNode) ctxt.handleUnexpectedToken(handledType(), p); } protected final JsonNode _fromInt(JsonParser p, int coercionFeatures, JsonNodeFactory nodeFactory) throws IOException { if (coercionFeatures != 0) { if (DeserializationFeature.USE_BIG_INTEGER_FOR_INTS.enabledIn(coercionFeatures)) { return nodeFactory.numberNode(p.getBigIntegerValue()); } return nodeFactory.numberNode(p.getLongValue()); } final JsonParser.NumberType nt = p.getNumberType(); if (nt == JsonParser.NumberType.INT) { return nodeFactory.numberNode(p.getIntValue()); } if (nt == JsonParser.NumberType.LONG) { return nodeFactory.numberNode(p.getLongValue()); } return nodeFactory.numberNode(p.getBigIntegerValue()); } protected final JsonNode _fromInt(JsonParser p, DeserializationContext ctxt, JsonNodeFactory nodeFactory) throws IOException { JsonParser.NumberType nt; int feats = ctxt.getDeserializationFeatures(); if ((feats & F_MASK_INT_COERCIONS) != 0) { if (DeserializationFeature.USE_BIG_INTEGER_FOR_INTS.enabledIn(feats)) { nt = JsonParser.NumberType.BIG_INTEGER; } else if (DeserializationFeature.USE_LONG_FOR_INTS.enabledIn(feats)) { nt = JsonParser.NumberType.LONG; } else { nt = p.getNumberType(); } } else { nt = p.getNumberType(); } if (nt == JsonParser.NumberType.INT) { return nodeFactory.numberNode(p.getIntValue()); } if (nt == JsonParser.NumberType.LONG) { return nodeFactory.numberNode(p.getLongValue()); } return nodeFactory.numberNode(p.getBigIntegerValue()); } protected final JsonNode _fromFloat(JsonParser p, DeserializationContext ctxt, JsonNodeFactory nodeFactory) throws IOException { // 13-Jan-2024, tatu: With 2.17 we have `JsonParser.getNumberTypeFP()` which // will return concrete FP type if format has one (JSON doesn't; most binary // formats do. // But with `DeserializationFeature.USE_BIG_DECIMAL_FOR_FLOATS` we have mechanism // that may override optimal physical representation. So heuristics to use are: // // 1. If physical type is `BigDecimal`, use `BigDecimal` // 2. If `DeserializationFeature.USE_BIG_DECIMAL_FOR_FLOATS` enabled, use `BigDecimal` // UNLESS we have "Not-a-Number" (in which case will coerce to `Double` if allowed // 3. Otherwise if physical type `Float`, use (32-bit) `Float` // 4. Otherwise use `Double` JsonParser.NumberTypeFP nt = p.getNumberTypeFP(); if (nt == JsonParser.NumberTypeFP.BIG_DECIMAL) { return _fromBigDecimal(ctxt, nodeFactory, p.getDecimalValue()); } if (ctxt.isEnabled(DeserializationFeature.USE_BIG_DECIMAL_FOR_FLOATS)) { // [databind#4194] Add an option to fail coercing NaN to BigDecimal // Currently, Jackson 2.x allows such coercion, but Jackson 3.x will not if (p.isNaN()) { if (ctxt.isEnabled(JsonNodeFeature.FAIL_ON_NAN_TO_BIG_DECIMAL_COERCION)) { return (JsonNode) ctxt.handleWeirdNumberValue(handledType(), p.getDoubleValue(), "Cannot convert NaN into BigDecimal"); } return nodeFactory.numberNode(p.getDoubleValue()); } return _fromBigDecimal(ctxt, nodeFactory, p.getDecimalValue()); } if (nt == JsonParser.NumberTypeFP.FLOAT32) { return nodeFactory.numberNode(p.getFloatValue()); } return nodeFactory.numberNode(p.getDoubleValue()); } protected final JsonNode _fromBigDecimal(DeserializationContext ctxt, JsonNodeFactory nodeFactory, BigDecimal bigDec) { // 23-Jan-2023, tatu: [databind#3651] Logic for determining whether // to "normalize" BigDecimal is bit hairy due to legacy setting... boolean normalize; // New feature has higher precedence if (but only if!) explicitly set final DatatypeFeatures dtf = ctxt.getDatatypeFeatures(); if (dtf.isExplicitlySet(JsonNodeFeature.STRIP_TRAILING_BIGDECIMAL_ZEROES)) { normalize = dtf.isEnabled(JsonNodeFeature.STRIP_TRAILING_BIGDECIMAL_ZEROES); } else { normalize = nodeFactory.willStripTrailingBigDecimalZeroes(); } if (normalize) { /* If the user has asked to strip trailing zeroes, however, there was * this bug to account for: * * http://bugs.sun.com/bugdatabase/view_bug.do?bug_id=6480539 * * In short: zeroes are never stripped out of 0! We therefore _have_ * to compare with BigDecimal.ZERO... */ // 24-Mar-2021, tatu: But isn't it more efficient to use "signum()"? // Especially as we now have a special case to consider // 23-Jan-2023, tatu: It's 2023 and fix was in JDK 8. Let's not bother. /* if (bigDec.signum() == 0) { return DecimalNode.ZERO; } */ // 24-Mar-2021, tatu: [dataformats-binary#264] barfs on a specific value... // Must skip normalization in that particular case. Alas, haven't found // another way to check it instead of getting "Overflow", catching try { bigDec = bigDec.stripTrailingZeros(); } catch (ArithmeticException e) { // If we can't, we can't... ; } } return nodeFactory.numberNode(bigDec); } protected final JsonNode _fromEmbedded(JsonParser p, DeserializationContext ctxt) throws IOException { final JsonNodeFactory nodeF = ctxt.getNodeFactory(); final Object ob = p.getEmbeddedObject(); if (ob == null) { // should this occur? return nodeF.nullNode(); } Class type = ob.getClass(); if (type == byte[].class) { // most common special case return nodeF.binaryNode((byte[]) ob); } // [databind#743]: Don't forget RawValue if (ob instanceof RawValue) { return nodeF.rawValueNode((RawValue) ob); } if (ob instanceof JsonNode) { // [databind#433]: but could also be a JsonNode hiding in there! return (JsonNode) ob; } // any other special handling needed? return nodeF.pojoNode(ob); } /* /********************************************************************** /* Helper classes /********************************************************************** */ /** * Optimized variant similar in functionality to (a subset of) * {@link java.util.ArrayDeque}; used to hold enclosing Array/Object * nodes during recursion-as-iteration. */ @SuppressWarnings("rawtypes") final static class ContainerStack { private ContainerNode[] _stack; private int _top, _end; public ContainerStack() { } // Not used yet but useful for limits (fail at [some high depth]) public int size() { return _top; } public void push(ContainerNode node) { if (_top < _end) { _stack[_top++] = node; // lgtm [java/dereferenced-value-may-be-null] return; } if (_stack == null) { _end = 10; _stack = new ContainerNode[_end]; } else { // grow by 50%, for most part _end += Math.min(4000, Math.max(20, _end>>1)); _stack = Arrays.copyOf(_stack, _end); } _stack[_top++] = node; } public ContainerNode popOrNull() { if (_top == 0) { return null; } // note: could clean up stack but due to usage pattern, should not make // any difference -- all nodes joined during and after construction and // after construction the whole stack is discarded return _stack[--_top]; } } }





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