//
// JavaScriptSerializer.cs
//
// Authors:
// Konstantin Triger <kostat@mainsoft.com>
// Marek Safar <marek.safar@gmail.com>
//
// (C) 2007 Mainsoft, Inc. http://www.mainsoft.com
// Copyright 2012 Xamarin Inc.
//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to
// permit persons to whom the Software is furnished to do so, subject to
// the following conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
using System;
using System.Collections.Generic;
using System.Text;
using Newtonsoft.Json;
using System.IO;
using System.Collections;
using System.Reflection;
using Newtonsoft.Json.Utilities;
using System.ComponentModel;
using System.Configuration;
using System.Web.Configuration;
namespace System.Web.Script.Serialization
{
public class JavaScriptSerializer
{
internal const string SerializedTypeNameKey = "__type";
List<IEnumerable<JavaScriptConverter>> _converterList;
int _maxJsonLength;
int _recursionLimit;
JavaScriptTypeResolver _typeResolver;
internal static readonly JavaScriptSerializer DefaultSerializer = new JavaScriptSerializer (null, false);
public JavaScriptSerializer () : this (null, false)
{
}
public JavaScriptSerializer (JavaScriptTypeResolver resolver) : this (resolver, false)
{
}
internal JavaScriptSerializer (JavaScriptTypeResolver resolver, bool registerConverters)
{
_typeResolver = resolver;
ScriptingJsonSerializationSection section = (ScriptingJsonSerializationSection) ConfigurationManager.GetSection ("system.web.extensions/scripting/webServices/jsonSerialization");
if (section == null) {
_maxJsonLength = 2097152;
_recursionLimit = 100;
} else {
_maxJsonLength = section.MaxJsonLength;
_recursionLimit = section.RecursionLimit;
if (registerConverters) {
ConvertersCollection converters = section.Converters;
if (converters != null && converters.Count > 0) {
var cvtlist = new List <JavaScriptConverter> ();
Type type;
string typeName;
JavaScriptConverter jsc;
foreach (Converter cvt in converters) {
typeName = cvt != null ? cvt.Type : null;
if (typeName == null)
continue;
type = HttpApplication.LoadType (typeName, true);
if (type == null || !typeof (JavaScriptConverter).IsAssignableFrom (type))
continue;
jsc = Activator.CreateInstance (type) as JavaScriptConverter;
cvtlist.Add (jsc);
}
RegisterConverters (cvtlist);
}
}
}
}
public int MaxJsonLength {
get {
return _maxJsonLength;
}
set {
_maxJsonLength = value;
}
}
public int RecursionLimit {
get {
return _recursionLimit;
}
set {
_recursionLimit = value;
}
}
internal JavaScriptTypeResolver TypeResolver {
get { return _typeResolver; }
}
public T ConvertToType<T> (object obj) {
if (obj == null)
return default (T);
return (T) ConvertToType (obj, typeof (T));
}
public
object ConvertToType (object obj, Type targetType)
{
if (obj == null)
return null;
if (obj is IDictionary<string, object>) {
if (targetType == null)
obj = EvaluateDictionary ((IDictionary<string, object>) obj);
else {
JavaScriptConverter converter = GetConverter (targetType);
if (converter != null)
return converter.Deserialize (
EvaluateDictionary ((IDictionary<string, object>) obj),
targetType, this);
}
return ConvertToObject ((IDictionary<string, object>) obj, targetType);
}
if (obj is ArrayList)
return ConvertToList ((ArrayList) obj, targetType);
if (targetType == null)
return obj;
Type sourceType = obj.GetType ();
if (targetType.IsAssignableFrom (sourceType))
return obj;
if (targetType.IsEnum)
if (obj is string)
return Enum.Parse (targetType, (string) obj, true);
else
return Enum.ToObject (targetType, obj);
TypeConverter c = TypeDescriptor.GetConverter (targetType);
if (c.CanConvertFrom (sourceType)) {
if (obj is string)
return c.ConvertFromInvariantString ((string) obj);
return c.ConvertFrom (obj);
}
if ((targetType.IsGenericType) && (targetType.GetGenericTypeDefinition () == typeof (Nullable<>))) {
if (obj is String) {
/*
* Take care of the special case whereas in JSON an empty string ("") really means
* an empty value
* (see: https://bugzilla.novell.com/show_bug.cgi?id=328836)
*/
if(String.IsNullOrEmpty ((String)obj))
return null;
} else if (c.CanConvertFrom (typeof (string))) {
TypeConverter objConverter = TypeDescriptor.GetConverter (obj);
string s = objConverter.ConvertToInvariantString (obj);
return c.ConvertFromInvariantString (s);
}
}
return Convert.ChangeType (obj, targetType);
}
public T Deserialize<T> (string input) {
return ConvertToType<T> (DeserializeObjectInternal(input));
}
public object Deserialize (string input, Type targetType) {
object obj = DeserializeObjectInternal (input);
if (obj == null) return null;
return ConvertToType (obj, targetType);
}
static object Evaluate (object value) {
return Evaluate (value, false);
}
static object Evaluate (object value, bool convertListToArray) {
if (value is IDictionary<string, object>)
value = EvaluateDictionary ((IDictionary<string, object>) value, convertListToArray);
else if (value is ArrayList)
value = EvaluateList ((ArrayList) value, convertListToArray);
return value;
}
static object EvaluateList (ArrayList e) {
return EvaluateList (e, false);
}
static object EvaluateList (ArrayList e, bool convertListToArray) {
ArrayList list = new ArrayList ();
foreach (object value in e)
list.Add (Evaluate (value, convertListToArray));
return convertListToArray ? (object) list.ToArray () : list;
}
static IDictionary<string, object> EvaluateDictionary (IDictionary<string, object> dict) {
return EvaluateDictionary (dict, false);
}
static IDictionary<string, object> EvaluateDictionary (IDictionary<string, object> dict, bool convertListToArray) {
Dictionary<string, object> d = new Dictionary<string, object> (StringComparer.Ordinal);
foreach (KeyValuePair<string, object> entry in dict) {
d.Add (entry.Key, Evaluate (entry.Value, convertListToArray));
}
return d;
}
static readonly Type typeofObject = typeof(object);
static readonly Type typeofGenList = typeof (List<>);
object ConvertToList (ArrayList col, Type type) {
Type elementType = null;
if (type != null && type.HasElementType)
elementType = type.GetElementType ();
IList list;
if (type == null || type.IsArray || typeofObject == type || typeof (ArrayList).IsAssignableFrom (type))
list = new ArrayList ();
else if (ReflectionUtils.IsInstantiatableType (type))
// non-generic typed list
list = (IList) Activator.CreateInstance (type, true);
else if (ReflectionUtils.IsAssignable (type, typeofGenList)) {
if (type.IsGenericType) {
Type [] genArgs = type.GetGenericArguments ();
elementType = genArgs [0];
// generic list
list = (IList) Activator.CreateInstance (typeofGenList.MakeGenericType (genArgs));
} else
list = new ArrayList ();
} else
throw new InvalidOperationException (String.Format ("Deserializing list type '{0}' not supported.", type.GetType ().Name));
if (list.IsReadOnly) {
EvaluateList (col);
return list;
}
if (elementType == null)
elementType = typeof (object);
foreach (object value in col)
list.Add (ConvertToType (value, elementType));
if (type != null && type.IsArray)
list = ((ArrayList) list).ToArray (elementType);
return list;
}
object ConvertToObject (IDictionary<string, object> dict, Type type)
{
if (_typeResolver != null) {
if (dict.Keys.Contains(SerializedTypeNameKey)) {
// already Evaluated
type = _typeResolver.ResolveType ((string) dict [SerializedTypeNameKey]);
}
}
if (type.IsGenericType) {
if (type.GetGenericTypeDefinition ().IsAssignableFrom (typeof (IDictionary <,>))) {
Type[] arguments = type.GetGenericArguments ();
if (arguments == null || arguments.Length != 2 || (arguments [0] != typeof (object) && arguments [0] != typeof (string)))
throw new InvalidOperationException (
"Type '" + type + "' is not not supported for serialization/deserialization of a dictionary, keys must be strings or objects.");
if (type.IsAbstract) {
Type dictType = typeof (Dictionary <,>);
type = dictType.MakeGenericType (arguments [0], arguments [1]);
}
}
} else if (type.IsAssignableFrom (typeof (IDictionary)))
type = typeof (Dictionary <string, object>);
object target = Activator.CreateInstance (type, true);
foreach (KeyValuePair<string, object> entry in dict) {
object value = entry.Value;
if (target is IDictionary) {
Type valueType = ReflectionUtils.GetTypedDictionaryValueType (type);
if (value != null && valueType == typeof (System.Object))
valueType = value.GetType ();
((IDictionary) target).Add (entry.Key, ConvertToType (value, valueType));
continue;
}
MemberInfo [] memberCollection = type.GetMember (entry.Key, BindingFlags.Public | BindingFlags.Instance | BindingFlags.IgnoreCase);
if (memberCollection == null || memberCollection.Length == 0) {
//must evaluate value
Evaluate (value);
continue;
}
MemberInfo member = memberCollection [0];
if (!ReflectionUtils.CanSetMemberValue (member)) {
//must evaluate value
Evaluate (value);
continue;
}
Type memberType = ReflectionUtils.GetMemberUnderlyingType (member);
if (memberType.IsInterface) {
if (memberType.IsGenericType)
memberType = ResolveGenericInterfaceToType (memberType);
else
memberType = ResolveInterfaceToType (memberType);
if (memberType == null)
throw new InvalidOperationException ("Unable to deserialize a member, as its type is an unknown interface.");
}
ReflectionUtils.SetMemberValue (member, target, ConvertToType(value, memberType));
}
return target;
}
Type ResolveGenericInterfaceToType (Type type)
{
Type[] genericArgs = type.GetGenericArguments ();
if (ReflectionUtils.IsSubClass (type, typeof (IDictionary <,>)))
return typeof (Dictionary <,>).MakeGenericType (genericArgs);
if (ReflectionUtils.IsSubClass (type, typeof (IList <>)) ||
ReflectionUtils.IsSubClass (type, typeof (ICollection <>)) ||
ReflectionUtils.IsSubClass (type, typeof (IEnumerable <>))
)
return typeof (List <>).MakeGenericType (genericArgs);
if (ReflectionUtils.IsSubClass (type, typeof (IComparer <>)))
return typeof (Comparer <>).MakeGenericType (genericArgs);
if (ReflectionUtils.IsSubClass (type, typeof (IEqualityComparer <>)))
return typeof (EqualityComparer <>).MakeGenericType (genericArgs);
return null;
}
Type ResolveInterfaceToType (Type type)
{
if (typeof (IDictionary).IsAssignableFrom (type))
return typeof (Hashtable);
if (typeof (IList).IsAssignableFrom (type) ||
typeof (ICollection).IsAssignableFrom (type) ||
typeof (IEnumerable).IsAssignableFrom (type))
return typeof (ArrayList);
if (typeof (IComparer).IsAssignableFrom (type))
return typeof (Comparer);
return null;
}
public object DeserializeObject (string input) {
object obj = Evaluate (DeserializeObjectInternal (input), true);
IDictionary dictObj = obj as IDictionary;
if (dictObj != null && dictObj.Contains(SerializedTypeNameKey)){
if (_typeResolver == null) {
throw new ArgumentNullException ("resolver", "Must have a type resolver to deserialize an object that has an '__type' member");
}
obj = ConvertToType(obj, null);
}
return obj;
}
internal object DeserializeObjectInternal (string input) {
return Json.Deserialize (input, this);
}
internal object DeserializeObjectInternal (TextReader input) {
return Json.Deserialize (input, this);
}
public void RegisterConverters (IEnumerable<JavaScriptConverter> converters) {
if (converters == null)
throw new ArgumentNullException ("converters");
if (_converterList == null)
_converterList = new List<IEnumerable<JavaScriptConverter>> ();
_converterList.Add (converters);
}
internal JavaScriptConverter GetConverter (Type type) {
if (_converterList != null)
for (int i = 0; i < _converterList.Count; i++) {
foreach (JavaScriptConverter converter in _converterList [i])
foreach (Type supportedType in converter.SupportedTypes)
if (supportedType.IsAssignableFrom (type))
return converter;
}
return null;
}
public string Serialize (object obj) {
StringBuilder b = new StringBuilder ();
Serialize (obj, b);
return b.ToString ();
}
public void Serialize (object obj, StringBuilder output) {
Json.Serialize (obj, this, output);
}
internal void Serialize (object obj, TextWriter output) {
Json.Serialize (obj, this, output);
}
}
}