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A patched json-simple parser that preserves the ordering in Map as read from JSon source
/* Copyright 2016 Clifton Labs
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License. */
package org.json.simple;
import java.io.IOException;
import java.io.StringWriter;
import java.io.Writer;
import java.math.BigDecimal;
import java.util.Collection;
import java.util.LinkedHashMap;
import java.util.Iterator;
import java.util.Map;
/** JsonObject is a common non-thread safe data format for string to data mappings. The contents of a JsonObject are
* only validated as JSON values on serialization.
* @see Jsoner
* @since 2.0.0 */
public class JsonObject extends LinkedHashMap implements Jsonable{
/** The serialization version this class is compatible
* with. This value doesn't need to be incremented if and only if the only changes to occur were updating comments,
* updating javadocs, adding new
* fields to the class, changing the fields from static to non-static, or changing the fields from transient to non
* transient. All other changes require this number be incremented. */
private static final long serialVersionUID = 1L;
/** Instantiates an empty JsonObject. */
public JsonObject(){
super();
}
/** Instantiate a new JsonObject by accepting a map's entries, which could lead to de/serialization issues of the
* resulting JsonObject since the entry values aren't validated as JSON values.
* @param map represents the mappings to produce the JsonObject with. */
public JsonObject(final Map map){
super(map);
}
/** A convenience method that assumes there is a BigDecimal, Number, or String at the given key. If a Number is
* there
* its Number#toString() is used to construct a new BigDecimal(String). If a String is there it is used to
* construct a new BigDecimal(String).
* @param key representing where the value ought to be stored at.
* @return the value stored at the key.
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see BigDecimal
* @see Number#toString() */
public BigDecimal getBigDecimal(final String key){
Object returnable = this.get(key);
if(returnable instanceof BigDecimal){
/* Success there was a BigDecimal or it defaulted. */
}else if(returnable instanceof Number){
/* A number can be used to construct a BigDecimal */
returnable = new BigDecimal(returnable.toString());
}else if(returnable instanceof String){
/* A number can be used to construct a BigDecimal */
returnable = new BigDecimal((String)returnable);
}
return (BigDecimal)returnable;
}
/** A convenience method that assumes there is a BigDecimal, Number, or String at the given key. If a Number is
* there
* its Number#toString() is used to construct a new BigDecimal(String). If a String is there it is used to
* construct a new BigDecimal(String).
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key or the default provided if the key doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return types.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see BigDecimal
* @see Number#toString() */
public BigDecimal getBigDecimalOrDefault(final String key, final BigDecimal defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable instanceof BigDecimal){
/* Success there was a BigDecimal or it defaulted. */
}else if(returnable instanceof Number){
/* A number can be used to construct a BigDecimal */
returnable = new BigDecimal(returnable.toString());
}else if(returnable instanceof String){
/* A String can be used to construct a BigDecimal */
returnable = new BigDecimal((String)returnable);
}
return (BigDecimal)returnable;
}
/** A convenience method that assumes there is a Boolean or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key.
* @throws ClassCastException if the value didn't match the assumed return type. */
public Boolean getBoolean(final String key){
Object returnable = this.get(key);
if(returnable instanceof String){
returnable = Boolean.valueOf((String)returnable);
}
return (Boolean)returnable;
}
/** A convenience method that assumes there is a Boolean or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key or the default provided if the key doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type. */
public Boolean getBooleanOrDefault(final String key, final boolean defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable instanceof String){
returnable = Boolean.valueOf((String)returnable);
}
return (Boolean)returnable;
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#byteValue() */
public Byte getByte(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).byteValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#byteValue() */
public Byte getByteOrDefault(final String key, final byte defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).byteValue();
}
/** A convenience method that assumes there is a Collection at the given key.
* @param the kind of collection to expect at the key. Note unless manually added, collection values will be a
* JsonArray.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key.
* @throws ClassCastException if the value didn't match the assumed return type. */
@SuppressWarnings("unchecked")
public > T getCollection(final String key){
/* The unchecked warning is suppressed because there is no way of guaranteeing at compile time the cast will
* work. */
return (T)this.get(key);
}
/** A convenience method that assumes there is a Collection at the given key.
* @param the kind of collection to expect at the key. Note unless manually added, collection values will be a
* JsonArray.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key or the default provided if the key doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type. */
@SuppressWarnings("unchecked")
public > T getCollectionOrDefault(final String key, final T defaultValue){
/* The unchecked warning is suppressed because there is no way of guaranteeing at compile time the cast will
* work. */
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
return (T)returnable;
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#doubleValue() */
public Double getDouble(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).doubleValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#doubleValue() */
public Double getDoubleOrDefault(final String key, final double defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).doubleValue();
}
/** A convenience method that assumes there is a String value at the given key representing a fully qualified name
* in
* dot notation of an enum.
* @param key representing where the value ought to be stored at.
* @param the Enum type the value at the key is expected to belong to.
* @return the enum based on the string found at the key, or null if the value paired with the provided key is null.
* @throws ClassNotFoundException if the value was a String but the declaring enum type couldn't be determined with
* it.
* @throws ClassCastException if the element at the index was not a String or if the fully qualified enum name is of
* the wrong type.
* @throws IllegalArgumentException if an enum type was determined but it doesn't define an enum with the determined
* name.
* @see Enum#valueOf(Class, String) */
@SuppressWarnings("unchecked")
public > T getEnum(final String key) throws ClassNotFoundException{
/* Supressing the unchecked warning because the returnType is dynamically identified and could lead to a
* ClassCastException when returnType is cast to Class, which is expected by the method's contract. */
T returnable;
final String value;
final String[] splitValues;
final int numberOfSplitValues;
final StringBuilder returnTypeName;
final StringBuilder enumName;
final Class returnType;
/* Make sure the value at the key is a String. */
value = this.getStringOrDefault(key, "");
if(value == null){
return null;
}
/* Get the package, class, and enum names. */
splitValues = value.split("\\.");
numberOfSplitValues = splitValues.length;
returnTypeName = new StringBuilder();
enumName = new StringBuilder();
for(int i = 0; i < numberOfSplitValues; i++){
if(i == (numberOfSplitValues - 1)){
/* If it is the last split value then it should be the name of the Enum since dots are not allowed
* in enum names. */
enumName.append(splitValues[i]);
}else if(i == (numberOfSplitValues - 2)){
/* If it is the penultimate split value then it should be the end of the package/enum type and not
* need a dot appended to it. */
returnTypeName.append(splitValues[i]);
}else{
/* Must be part of the package/enum type and will need a dot appended to it since they got removed
* in the split. */
returnTypeName.append(splitValues[i]);
returnTypeName.append(".");
}
}
/* Use the package/class and enum names to get the Enum. */
returnType = (Class)Class.forName(returnTypeName.toString());
returnable = Enum.valueOf(returnType, enumName.toString());
return returnable;
}
/** A convenience method that assumes there is a String value at the given key representing a fully qualified name
* in
* dot notation of an enum.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @param the Enum type the value at the key is expected to belong to.
* @return the enum based on the string found at the key, or the defaultValue provided if the key doesn't exist, or
* null if the value paired with provided key is null.
* @throws ClassNotFoundException if the value was a String but the declaring enum type couldn't be determined with
* it.
* @throws ClassCastException if the element at the index was not a String or if the fully qualified enum name is of
* the wrong type.
* @throws IllegalArgumentException if an enum type was determined but it doesn't define an enum with the determined
* name.
* @see Enum#valueOf(Class, String) */
@SuppressWarnings("unchecked")
public > T getEnumOrDefault(final String key, final T defaultValue) throws ClassNotFoundException{
/* Supressing the unchecked warning because the returnType is dynamically identified and could lead to a
* ClassCastException when returnType is cast to Class, which is expected by the method's contract. */
T returnable;
final String value;
final String[] splitValues;
final int numberOfSplitValues;
final StringBuilder returnTypeName;
final StringBuilder enumName;
final Class returnType;
/* Check to make sure the key wasn't actually there and wasn't coincidentally the defaulted String as its
* value. */
if(this.containsKey(key)){
/* Make sure the value at the key is a String. */
value = this.getStringOrDefault(key, "");
if(value == null){
return null;
}
/* Get the package, class, and enum names. */
splitValues = value.split("\\.");
numberOfSplitValues = splitValues.length;
returnTypeName = new StringBuilder();
enumName = new StringBuilder();
for(int i = 0; i < numberOfSplitValues; i++){
if(i == (numberOfSplitValues - 1)){
/* If it is the last split value then it should be the name of the Enum since dots are not allowed
* in enum names. */
enumName.append(splitValues[i]);
}else if(i == (numberOfSplitValues - 2)){
/* If it is the penultimate split value then it should be the end of the package/enum type and not
* need a dot appended to it. */
returnTypeName.append(splitValues[i]);
}else{
/* Must be part of the package/enum type and will need a dot appended to it since they got removed
* in the split. */
returnTypeName.append(splitValues[i]);
returnTypeName.append(".");
}
}
/* Use the package/class and enum names to get the Enum. */
returnType = (Class)Class.forName(returnTypeName.toString());
returnable = Enum.valueOf(returnType, enumName.toString());
}else{
/* It wasn't there and according to the method's contract we return the default value. */
return defaultValue;
}
return returnable;
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#floatValue() */
public Float getFloat(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).floatValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#floatValue() */
public Float getFloatOrDefault(final String key, final float defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).floatValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#intValue() */
public Integer getInteger(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).intValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#intValue() */
public Integer getIntegerOrDefault(final String key, final int defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).intValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#longValue() */
public Long getLong(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).longValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#longValue() */
public Long getLongOrDefault(final String key, final long defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).longValue();
}
/** A convenience method that assumes there is a Map at the given key.
* @param the kind of map to expect at the key. Note unless manually added, Map values will be a JsonObject.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key.
* @throws ClassCastException if the value didn't match the assumed return type. */
@SuppressWarnings("unchecked")
public > T getMap(final String key){
/* The unchecked warning is suppressed because there is no way of guaranteeing at compile time the cast will
* work. */
return (T)this.get(key);
}
/** A convenience method that assumes there is a Map at the given key.
* @param the kind of map to expect at the key. Note unless manually added, Map values will be a JsonObject.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key or the default provided if the key doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type. */
@SuppressWarnings("unchecked")
public > T getMapOrDefault(final String key, final T defaultValue){
/* The unchecked warning is suppressed because there is no way of guaranteeing at compile time the cast will
* work. */
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
returnable = defaultValue;
}
return (T)returnable;
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key (which may involve rounding or truncation).
* @throws ClassCastException if the value didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#shortValue() */
public Short getShort(final String key){
Object returnable = this.get(key);
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).shortValue();
}
/** A convenience method that assumes there is a Number or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key (which may involve rounding or truncation) or the default provided if the key
* doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type.
* @throws NumberFormatException if a String isn't a valid representation of a BigDecimal or if the Number
* represents the double or float Infinity or NaN.
* @see Number#shortValue() */
public Short getShortOrDefault(final String key, final short defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable == null){
return null;
}
if(returnable instanceof String){
/* A String can be used to construct a BigDecimal. */
returnable = new BigDecimal((String)returnable);
}
return ((Number)returnable).shortValue();
}
/** A convenience method that assumes there is a Boolean, Number, or String value at the given key.
* @param key representing where the value ought to be stored at.
* @return the value stored at the key.
* @throws ClassCastException if the value didn't match the assumed return type. */
public String getString(final String key){
Object returnable = this.get(key);
if(returnable instanceof Boolean){
returnable = returnable.toString();
}else if(returnable instanceof Number){
returnable = returnable.toString();
}
return (String)returnable;
}
/** A convenience method that assumes there is a Boolean, Number, or String value at the given key.
* @param key representing where the value ought to be stored at.
* @param defaultValue representing what is returned when the key isn't in the JsonObject.
* @return the value stored at the key or the default provided if the key doesn't exist.
* @throws ClassCastException if there was a value but didn't match the assumed return type. */
public String getStringOrDefault(final String key, final String defaultValue){
Object returnable;
if(this.containsKey(key)){
returnable = this.get(key);
}else{
return defaultValue;
}
if(returnable instanceof Boolean){
returnable = returnable.toString();
}else if(returnable instanceof Number){
returnable = returnable.toString();
}
return (String)returnable;
}
/* (non-Javadoc)
* @see org.json.simple.Jsonable#asJsonString() */
@Override
public String toJson(){
final StringWriter writable = new StringWriter();
try{
this.toJson(writable);
}catch(final IOException caught){
/* See java.io.StringWriter. */
}
return writable.toString();
}
/* (non-Javadoc)
* @see org.json.simple.Jsonable#toJsonString(java.io.Writer) */
@Override
public void toJson(final Writer writable) throws IOException{
/* Writes the map in JSON object format. */
boolean isFirstEntry = true;
final Iterator> entries = this.entrySet().iterator();
writable.write('{');
while(entries.hasNext()){
if(isFirstEntry){
isFirstEntry = false;
}else{
writable.write(',');
}
final Map.Entry entry = entries.next();
writable.write(Jsoner.serialize(entry.getKey()));
writable.write(':');
writable.write(Jsoner.serialize(entry.getValue()));
}
writable.write('}');
}
}
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