io.honeybadger.com.fasterxml.jackson.databind.node.JsonNodeFactory Maven / Gradle / Ivy
package com.fasterxml.jackson.databind.node;
import java.math.BigDecimal;
import java.math.BigInteger;
import com.fasterxml.jackson.databind.util.RawValue;
/**
* Base class that specifies methods for getting access to
* Node instances (newly constructed, or shared, depending
* on type), as well as basic implementation of the methods.
* Designed to be sub-classed if extended functionality (additions
* to behavior of node types, mostly) is needed.
*/
public class JsonNodeFactory
implements java.io.Serializable, // since 2.1
JsonNodeCreator // since 2.3
{
// with 2.2
private static final long serialVersionUID = 1L;
private final boolean _cfgBigDecimalExact;
private static final JsonNodeFactory decimalsNormalized
= new JsonNodeFactory(false);
private static final JsonNodeFactory decimalsAsIs
= new JsonNodeFactory(true);
/**
* Default singleton instance that construct "standard" node instances:
* given that this class is stateless, a globally shared singleton
* can be used.
*/
public final static JsonNodeFactory instance = decimalsNormalized;
/**
* Main constructor
*
* The only argument to this constructor is a boolean telling whether
* {@link DecimalNode} instances must be built with exact representations of
* {@link BigDecimal} instances.
*
* This has quite an influence since, for instance, a BigDecimal (and,
* therefore, a DecimalNode) constructed from input string {@code "1.0"} and
* another constructed with input string {@code "1.00"} will not be
* equal, since their scale differs (1 in the first case, 2 in the second
* case).
*
* Note that setting the argument to {@code true} does not
* guarantee a strict inequality between JSON representations: input texts
* {@code "0.1"} and {@code "1e-1"}, for instance, yield two equivalent
* BigDecimal instances since they have the same scale (1).
*
* The no-arg constructor (and the default {@link #instance}) calls this
* constructor with {@code false} as an argument.
*
* @param bigDecimalExact see description
*
* @see BigDecimal
*/
public JsonNodeFactory(boolean bigDecimalExact)
{
_cfgBigDecimalExact = bigDecimalExact;
}
/**
* Default constructor
*
* This calls {@link #JsonNodeFactory(boolean)} with {@code false}
* as an argument.
*/
protected JsonNodeFactory()
{
this(false);
}
/**
* Return a factory instance with the desired behavior for BigDecimals
* See {@link #JsonNodeFactory(boolean)} for a full description.
*
* @param bigDecimalExact see description
* @return a factory instance
*/
public static JsonNodeFactory withExactBigDecimals(boolean bigDecimalExact)
{
return bigDecimalExact ? decimalsAsIs : decimalsNormalized;
}
/*
/**********************************************************
/* Factory methods for literal values
/**********************************************************
*/
/**
* Factory method for getting an instance of JSON boolean value
* (either literal 'true' or 'false')
*/
@Override
public BooleanNode booleanNode(boolean v) {
return v ? BooleanNode.getTrue() : BooleanNode.getFalse();
}
/**
* Factory method for getting an instance of JSON null node (which
* represents literal null value)
*/
@Override
public NullNode nullNode() { return NullNode.getInstance(); }
/*
/**********************************************************
/* Factory methods for numeric values
/**********************************************************
*/
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 8-bit value
*/
@Override
public NumericNode numberNode(byte v) { return IntNode.valueOf(v); }
/**
* Alternate factory method that will handle wrapper value, which may
* be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Byte value) {
return (value == null) ? nullNode() : IntNode.valueOf(value.intValue());
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 16-bit integer value
*/
@Override
public NumericNode numberNode(short v) { return ShortNode.valueOf(v); }
/**
* Alternate factory method that will handle wrapper value, which may
* be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Short value) {
return (value == null) ? nullNode() : ShortNode.valueOf(value);
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 32-bit integer value
*/
@Override
public NumericNode numberNode(int v) { return IntNode.valueOf(v); }
/**
* Alternate factory method that will handle wrapper value, which may
* be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Integer value) {
return (value == null) ? nullNode() : IntNode.valueOf(value.intValue());
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 64-bit integer value
*/
@Override
public NumericNode numberNode(long v) {
return LongNode.valueOf(v);
}
/**
* Alternate factory method that will handle wrapper value, which may be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Long value) {
if (value == null) {
return nullNode();
}
return LongNode.valueOf(value.longValue());
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given unlimited range integer value
*/
@Override
public NumericNode numberNode(BigInteger v) { return BigIntegerNode.valueOf(v); }
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 32-bit floating point value
*/
@Override
public NumericNode numberNode(float v) { return FloatNode.valueOf((float) v); }
/**
* Alternate factory method that will handle wrapper value, which may
* be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Float value) {
return (value == null) ? nullNode() : FloatNode.valueOf(value.floatValue());
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given 64-bit floating point value
*/
@Override
public NumericNode numberNode(double v) { return DoubleNode.valueOf(v); }
/**
* Alternate factory method that will handle wrapper value, which may
* be null.
* Due to possibility of null, returning type is not guaranteed to be
* {@link NumericNode}, but just {@link ValueNode}.
*/
@Override
public ValueNode numberNode(Double value) {
return (value == null) ? nullNode() : DoubleNode.valueOf(value.doubleValue());
}
/**
* Factory method for getting an instance of JSON numeric value
* that expresses given unlimited precision floating point value
*
* In the event that the factory has been built to normalize decimal
* values, the BigDecimal argument will be stripped off its trailing zeroes,
* using {@link BigDecimal#stripTrailingZeros()}.
*
* @see #JsonNodeFactory(boolean)
*/
@Override
public NumericNode numberNode(BigDecimal v)
{
/*
* If the user wants the exact representation of this big decimal,
* return the value directly
*/
if (_cfgBigDecimalExact)
return DecimalNode.valueOf(v);
/*
* If the user has asked to strip trailing zeroes, however, there is
* 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...
*/
return v.compareTo(BigDecimal.ZERO) == 0 ? DecimalNode.ZERO
: DecimalNode.valueOf(v.stripTrailingZeros());
}
/*
/**********************************************************
/* Factory methods for textual values
/**********************************************************
*/
/**
* Factory method for constructing a node that represents JSON
* String value
*/
@Override
public TextNode textNode(String text) { return TextNode.valueOf(text); }
/**
* Factory method for constructing a node that represents given
* binary data, and will get serialized as equivalent base64-encoded
* String value
*/
@Override
public BinaryNode binaryNode(byte[] data) { return BinaryNode.valueOf(data); }
/**
* Factory method for constructing a node that represents given
* binary data, and will get serialized as equivalent base64-encoded
* String value
*/
@Override
public BinaryNode binaryNode(byte[] data, int offset, int length) {
return BinaryNode.valueOf(data, offset, length);
}
/*
/**********************************************************
/* Factory method for structured values
/**********************************************************
*/
/**
* Factory method for constructing an empty JSON Array node
*/
@Override
public ArrayNode arrayNode() { return new ArrayNode(this); }
/**
* Factory method for constructing a JSON Array node with an initial capacity
*
* @since 2.8
*/
@Override
public ArrayNode arrayNode(int capacity) { return new ArrayNode(this, capacity); }
/**
* Factory method for constructing an empty JSON Object ("struct") node
*/
@Override
public ObjectNode objectNode() { return new ObjectNode(this); }
/**
* Factory method for constructing a wrapper for POJO
* ("Plain Old Java Object") objects; these will get serialized
* using data binding, usually as JSON Objects, but in some
* cases as JSON Strings or other node types.
*/
@Override
public ValueNode pojoNode(Object pojo) { return new POJONode(pojo); }
@Override
public ValueNode rawValueNode(RawValue value) {
return new POJONode(value);
}
/*
/**********************************************************
/* Helper methods
/**********************************************************
*/
protected boolean _inIntRange(long l)
{
int i = (int) l;
long l2 = (long) i;
return (l2 == l);
}
}