Simple JSON is a small and fast JSON library for .NET 2.0+/SL4+/WP7+/Windows Store Apps/Portable Class Library and powershell. Includes support for dynamic in .NET 4.0+/SL4+/Windows Store Apps. Also includes support for DataContract and DataMember.
//-----------------------------------------------------------------------
// <copyright file="SimpleJson.cs" company="The Outercurve Foundation">
// Copyright (c) 2011, The Outercurve Foundation.
//
// Licensed under the MIT License (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.opensource.org/licenses/mit-license.php
//
// 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.
// </copyright>
// <author>Nathan Totten (ntotten.com), Jim Zimmerman (jimzimmerman.com) and Prabir Shrestha (prabir.me)</author>
// <website>https://github.com/facebook-csharp-sdk/simple-json</website>
//-----------------------------------------------------------------------
// VERSION:
// NOTE: uncomment the following line to make SimpleJson class internal.
//#define SIMPLE_JSON_INTERNAL
// NOTE: uncomment the following line to make JsonArray and JsonObject class internal.
//#define SIMPLE_JSON_OBJARRAYINTERNAL
// NOTE: uncomment the following line to enable dynamic support.
//#define SIMPLE_JSON_DYNAMIC
// NOTE: uncomment the following line to enable DataContract support.
//#define SIMPLE_JSON_DATACONTRACT
// NOTE: uncomment the following line to enable IReadOnlyCollection<T> and IReadOnlyList<T> support.
//#define SIMPLE_JSON_READONLY_COLLECTIONS
// NOTE: uncomment the following line to disable linq expressions/compiled lambda (better performance) instead of method.invoke().
// define if you are using .net framework <= 3.0 or < WP7.5
//#define SIMPLE_JSON_NO_LINQ_EXPRESSION
// NOTE: uncomment the following line if you are compiling under Window Metro style application/library.
// usually already defined in properties
//#define NETFX_CORE;
// If you are targetting WinStore, WP8 and NET4.5+ PCL make sure to #define SIMPLE_JSON_TYPEINFO;
// original json parsing code from http://techblog.procurios.nl/k/618/news/view/14605/14863/How-do-I-write-my-own-parser-for-JSON.html
#if NETFX_CORE
#define SIMPLE_JSON_TYPEINFO
#endif
using System;
using System.CodeDom.Compiler;
using System.Collections;
using System.Collections.Generic;
#if !SIMPLE_JSON_NO_LINQ_EXPRESSION
using System.Linq.Expressions;
#endif
using System.ComponentModel;
using System.Diagnostics.CodeAnalysis;
#if SIMPLE_JSON_DYNAMIC
using System.Dynamic;
#endif
using System.Globalization;
using System.Reflection;
using System.Runtime.Serialization;
using System.Text;
using SimpleJson.Reflection;
// ReSharper disable LoopCanBeConvertedToQuery
// ReSharper disable RedundantExplicitArrayCreation
// ReSharper disable SuggestUseVarKeywordEvident
namespace SimpleJson
{
/// <summary>
/// Represents the json array.
/// </summary>
[GeneratedCode("simple-json", "1.0.0")]
[EditorBrowsable(EditorBrowsableState.Never)]
[SuppressMessage("Microsoft.Naming", "CA1710:IdentifiersShouldHaveCorrectSuffix")]
#if SIMPLE_JSON_OBJARRAYINTERNAL
internal
#else
public
#endif
class JsonArray : List<object>
{
/// <summary>
/// Initializes a new instance of the <see cref="JsonArray"/> class.
/// </summary>
public JsonArray() { }
/// <summary>
/// Initializes a new instance of the <see cref="JsonArray"/> class.
/// </summary>
/// <param name="capacity">The capacity of the json array.</param>
public JsonArray(int capacity) : base(capacity) { }
/// <summary>
/// The json representation of the array.
/// </summary>
/// <returns>The json representation of the array.</returns>
public override string ToString()
{
return SimpleJson.SerializeObject(this) ?? string.Empty;
}
}
/// <summary>
/// Represents the json object.
/// </summary>
[GeneratedCode("simple-json", "1.0.0")]
[EditorBrowsable(EditorBrowsableState.Never)]
[SuppressMessage("Microsoft.Naming", "CA1710:IdentifiersShouldHaveCorrectSuffix")]
#if SIMPLE_JSON_OBJARRAYINTERNAL
internal
#else
public
#endif
class JsonObject :
#if SIMPLE_JSON_DYNAMIC
DynamicObject,
#endif
IDictionary<string, object>
{
/// <summary>
/// The internal member dictionary.
/// </summary>
private readonly Dictionary<string, object> _members;
/// <summary>
/// Initializes a new instance of <see cref="JsonObject"/>.
/// </summary>
public JsonObject()
{
_members = new Dictionary<string, object>();
}
/// <summary>
/// Initializes a new instance of <see cref="JsonObject"/>.
/// </summary>
/// <param name="comparer">The <see cref="T:System.Collections.Generic.IEqualityComparer`1"/> implementation to use when comparing keys, or null to use the default <see cref="T:System.Collections.Generic.EqualityComparer`1"/> for the type of the key.</param>
public JsonObject(IEqualityComparer<string> comparer)
{
_members = new Dictionary<string, object>(comparer);
}
/// <summary>
/// Gets the <see cref="System.Object"/> at the specified index.
/// </summary>
/// <value></value>
public object this[int index]
{
get { return GetAtIndex(_members, index); }
}
internal static object GetAtIndex(IDictionary<string, object> obj, int index)
{
if (obj == null)
throw new ArgumentNullException("obj");
if (index >= obj.Count)
throw new ArgumentOutOfRangeException("index");
int i = 0;
foreach (KeyValuePair<string, object> o in obj)
if (i++ == index) return o.Value;
return null;
}
/// <summary>
/// Adds the specified key.
/// </summary>
/// <param name="key">The key.</param>
/// <param name="value">The value.</param>
public void Add(string key, object value)
{
_members.Add(key, value);
}
/// <summary>
/// Determines whether the specified key contains key.
/// </summary>
/// <param name="key">The key.</param>
/// <returns>
/// <c>true</c> if the specified key contains key; otherwise, <c>false</c>.
/// </returns>
public bool ContainsKey(string key)
{
return _members.ContainsKey(key);
}
/// <summary>
/// Gets the keys.
/// </summary>
/// <value>The keys.</value>
public ICollection<string> Keys
{
get { return _members.Keys; }
}
/// <summary>
/// Removes the specified key.
/// </summary>
/// <param name="key">The key.</param>
/// <returns></returns>
public bool Remove(string key)
{
return _members.Remove(key);
}
/// <summary>
/// Tries the get value.
/// </summary>
/// <param name="key">The key.</param>
/// <param name="value">The value.</param>
/// <returns></returns>
public bool TryGetValue(string key, out object value)
{
return _members.TryGetValue(key, out value);
}
/// <summary>
/// Gets the values.
/// </summary>
/// <value>The values.</value>
public ICollection<object> Values
{
get { return _members.Values; }
}
/// <summary>
/// Gets or sets the <see cref="System.Object"/> with the specified key.
/// </summary>
/// <value></value>
public object this[string key]
{
get { return _members[key]; }
set { _members[key] = value; }
}
/// <summary>
/// Adds the specified item.
/// </summary>
/// <param name="item">The item.</param>
public void Add(KeyValuePair<string, object> item)
{
_members.Add(item.Key, item.Value);
}
/// <summary>
/// Clears this instance.
/// </summary>
public void Clear()
{
_members.Clear();
}
/// <summary>
/// Determines whether [contains] [the specified item].
/// </summary>
/// <param name="item">The item.</param>
/// <returns>
/// <c>true</c> if [contains] [the specified item]; otherwise, <c>false</c>.
/// </returns>
public bool Contains(KeyValuePair<string, object> item)
{
return _members.ContainsKey(item.Key) && _members[item.Key] == item.Value;
}
/// <summary>
/// Copies to.
/// </summary>
/// <param name="array">The array.</param>
/// <param name="arrayIndex">Index of the array.</param>
public void CopyTo(KeyValuePair<string, object>[] array, int arrayIndex)
{
if (array == null) throw new ArgumentNullException("array");
int num = Count;
foreach (KeyValuePair<string, object> kvp in this)
{
array[arrayIndex++] = kvp;
if (--num <= 0)
return;
}
}
/// <summary>
/// Gets the count.
/// </summary>
/// <value>The count.</value>
public int Count
{
get { return _members.Count; }
}
/// <summary>
/// Gets a value indicating whether this instance is read only.
/// </summary>
/// <value>
/// <c>true</c> if this instance is read only; otherwise, <c>false</c>.
/// </value>
public bool IsReadOnly
{
get { return false; }
}
/// <summary>
/// Removes the specified item.
/// </summary>
/// <param name="item">The item.</param>
/// <returns></returns>
public bool Remove(KeyValuePair<string, object> item)
{
return _members.Remove(item.Key);
}
/// <summary>
/// Gets the enumerator.
/// </summary>
/// <returns></returns>
public IEnumerator<KeyValuePair<string, object>> GetEnumerator()
{
return _members.GetEnumerator();
}
/// <summary>
/// Returns an enumerator that iterates through a collection.
/// </summary>
/// <returns>
/// An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the collection.
/// </returns>
IEnumerator IEnumerable.GetEnumerator()
{
return _members.GetEnumerator();
}
/// <summary>
/// Returns a json <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
/// </summary>
/// <returns>
/// A json <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
/// </returns>
public override string ToString()
{
return SimpleJson.SerializeObject(this);
}
#if SIMPLE_JSON_DYNAMIC
/// <summary>
/// Provides implementation for type conversion operations. Classes derived from the <see cref="T:System.Dynamic.DynamicObject"/> class can override this method to specify dynamic behavior for operations that convert an object from one type to another.
/// </summary>
/// <param name="binder">Provides information about the conversion operation. The binder.Type property provides the type to which the object must be converted. For example, for the statement (String)sampleObject in C# (CType(sampleObject, Type) in Visual Basic), where sampleObject is an instance of the class derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, binder.Type returns the <see cref="T:System.String"/> type. The binder.Explicit property provides information about the kind of conversion that occurs. It returns true for explicit conversion and false for implicit conversion.</param>
/// <param name="result">The result of the type conversion operation.</param>
/// <returns>
/// Alwasy returns true.
/// </returns>
public override bool TryConvert(ConvertBinder binder, out object result)
{
// <pex>
if (binder == null)
throw new ArgumentNullException("binder");
// </pex>
Type targetType = binder.Type;
if ((targetType == typeof(IEnumerable)) ||
(targetType == typeof(IEnumerable<KeyValuePair<string, object>>)) ||
(targetType == typeof(IDictionary<string, object>)) ||
(targetType == typeof(IDictionary)))
{
result = this;
return true;
}
return base.TryConvert(binder, out result);
}
/// <summary>
/// Provides the implementation for operations that delete an object member. This method is not intended for use in C# or Visual Basic.
/// </summary>
/// <param name="binder">Provides information about the deletion.</param>
/// <returns>
/// Alwasy returns true.
/// </returns>
public override bool TryDeleteMember(DeleteMemberBinder binder)
{
// <pex>
if (binder == null)
throw new ArgumentNullException("binder");
// </pex>
return _members.Remove(binder.Name);
}
/// <summary>
/// Provides the implementation for operations that get a value by index. Classes derived from the <see cref="T:System.Dynamic.DynamicObject"/> class can override this method to specify dynamic behavior for indexing operations.
/// </summary>
/// <param name="binder">Provides information about the operation.</param>
/// <param name="indexes">The indexes that are used in the operation. For example, for the sampleObject[3] operation in C# (sampleObject(3) in Visual Basic), where sampleObject is derived from the DynamicObject class, <paramref name="indexes"/> is equal to 3.</param>
/// <param name="result">The result of the index operation.</param>
/// <returns>
/// Alwasy returns true.
/// </returns>
public override bool TryGetIndex(GetIndexBinder binder, object[] indexes, out object result)
{
if (indexes == null) throw new ArgumentNullException("indexes");
if (indexes.Length == 1)
{
result = ((IDictionary<string, object>)this)[(string)indexes[0]];
return true;
}
result = null;
return true;
}
/// <summary>
/// Provides the implementation for operations that get member values. Classes derived from the <see cref="T:System.Dynamic.DynamicObject"/> class can override this method to specify dynamic behavior for operations such as getting a value for a property.
/// </summary>
/// <param name="binder">Provides information about the object that called the dynamic operation. The binder.Name property provides the name of the member on which the dynamic operation is performed. For example, for the Console.WriteLine(sampleObject.SampleProperty) statement, where sampleObject is an instance of the class derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, binder.Name returns "SampleProperty". The binder.IgnoreCase property specifies whether the member name is case-sensitive.</param>
/// <param name="result">The result of the get operation. For example, if the method is called for a property, you can assign the property value to <paramref name="result"/>.</param>
/// <returns>
/// Alwasy returns true.
/// </returns>
public override bool TryGetMember(GetMemberBinder binder, out object result)
{
object value;
if (_members.TryGetValue(binder.Name, out value))
{
result = value;
return true;
}
result = null;
return true;
}
/// <summary>
/// Provides the implementation for operations that set a value by index. Classes derived from the <see cref="T:System.Dynamic.DynamicObject"/> class can override this method to specify dynamic behavior for operations that access objects by a specified index.
/// </summary>
/// <param name="binder">Provides information about the operation.</param>
/// <param name="indexes">The indexes that are used in the operation. For example, for the sampleObject[3] = 10 operation in C# (sampleObject(3) = 10 in Visual Basic), where sampleObject is derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, <paramref name="indexes"/> is equal to 3.</param>
/// <param name="value">The value to set to the object that has the specified index. For example, for the sampleObject[3] = 10 operation in C# (sampleObject(3) = 10 in Visual Basic), where sampleObject is derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, <paramref name="value"/> is equal to 10.</param>
/// <returns>
/// true if the operation is successful; otherwise, false. If this method returns false, the run-time binder of the language determines the behavior. (In most cases, a language-specific run-time exception is thrown.
/// </returns>
public override bool TrySetIndex(SetIndexBinder binder, object[] indexes, object value)
{
if (indexes == null) throw new ArgumentNullException("indexes");
if (indexes.Length == 1)
{
((IDictionary<string, object>)this)[(string)indexes[0]] = value;
return true;
}
return base.TrySetIndex(binder, indexes, value);
}
/// <summary>
/// Provides the implementation for operations that set member values. Classes derived from the <see cref="T:System.Dynamic.DynamicObject"/> class can override this method to specify dynamic behavior for operations such as setting a value for a property.
/// </summary>
/// <param name="binder">Provides information about the object that called the dynamic operation. The binder.Name property provides the name of the member to which the value is being assigned. For example, for the statement sampleObject.SampleProperty = "Test", where sampleObject is an instance of the class derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, binder.Name returns "SampleProperty". The binder.IgnoreCase property specifies whether the member name is case-sensitive.</param>
/// <param name="value">The value to set to the member. For example, for sampleObject.SampleProperty = "Test", where sampleObject is an instance of the class derived from the <see cref="T:System.Dynamic.DynamicObject"/> class, the <paramref name="value"/> is "Test".</param>
/// <returns>
/// true if the operation is successful; otherwise, false. If this method returns false, the run-time binder of the language determines the behavior. (In most cases, a language-specific run-time exception is thrown.)
/// </returns>
public override bool TrySetMember(SetMemberBinder binder, object value)
{
// <pex>
if (binder == null)
throw new ArgumentNullException("binder");
// </pex>
_members[binder.Name] = value;
return true;
}
/// <summary>
/// Returns the enumeration of all dynamic member names.
/// </summary>
/// <returns>
/// A sequence that contains dynamic member names.
/// </returns>
public override IEnumerable<string> GetDynamicMemberNames()
{
foreach (var key in Keys)
yield return key;
}
#endif
}
}
namespace SimpleJson
{
/// <summary>
/// This class encodes and decodes JSON strings.
/// Spec. details, see http://www.json.org/
///
/// JSON uses Arrays and Objects. These correspond here to the datatypes JsonArray(IList<object>) and JsonObject(IDictionary<string,object>).
/// All numbers are parsed to doubles.
/// </summary>
[GeneratedCode("simple-json", "1.0.0")]
#if SIMPLE_JSON_INTERNAL
internal
#else
public
#endif
static class SimpleJson
{
private const int TOKEN_NONE = 0;
private const int TOKEN_CURLY_OPEN = 1;
private const int TOKEN_CURLY_CLOSE = 2;
private const int TOKEN_SQUARED_OPEN = 3;
private const int TOKEN_SQUARED_CLOSE = 4;
private const int TOKEN_COLON = 5;
private const int TOKEN_COMMA = 6;
private const int TOKEN_STRING = 7;
private const int TOKEN_NUMBER = 8;
private const int TOKEN_TRUE = 9;
private const int TOKEN_FALSE = 10;
private const int TOKEN_NULL = 11;
private const int BUILDER_CAPACITY = 2000;
private static readonly char[] EscapeTable;
private static readonly char[] EscapeCharacters = new char[] { '"', '\\', '\b', '\f', '\n', '\r', '\t' };
private static readonly string EscapeCharactersString = new string(EscapeCharacters);
static SimpleJson()
{
EscapeTable = new char[93];
EscapeTable['"'] = '"';
EscapeTable['\\'] = '\\';
EscapeTable['\b'] = 'b';
EscapeTable['\f'] = 'f';
EscapeTable['\n'] = 'n';
EscapeTable['\r'] = 'r';
EscapeTable['\t'] = 't';
}
/// <summary>
/// Parses the string json into a value
/// </summary>
/// <param name="json">A JSON string.</param>
/// <returns>An IList<object>, a IDictionary<string,object>, a double, a string, null, true, or false</returns>
public static object DeserializeObject(string json)
{
object obj;
if (TryDeserializeObject(json, out obj))
return obj;
throw new SerializationException("Invalid JSON string");
}
/// <summary>
/// Try parsing the json string into a value.
/// </summary>
/// <param name="json">
/// A JSON string.
/// </param>
/// <param name="obj">
/// The object.
/// </param>
/// <returns>
/// Returns true if successfull otherwise false.
/// </returns>
[SuppressMessage("Microsoft.Design", "CA1007:UseGenericsWhereAppropriate", Justification="Need to support .NET 2")]
public static bool TryDeserializeObject(string json, out object obj)
{
bool success = true;
if (json != null)
{
char[] charArray = json.ToCharArray();
int index = 0;
obj = ParseValue(charArray, ref index, ref success);
}
else
obj = null;
return success;
}
public static object DeserializeObject(string json, Type type, IJsonSerializerStrategy jsonSerializerStrategy)
{
object jsonObject = DeserializeObject(json);
return type == null || jsonObject != null && ReflectionUtils.IsAssignableFrom(jsonObject.GetType(), type)
? jsonObject
: (jsonSerializerStrategy ?? CurrentJsonSerializerStrategy).DeserializeObject(jsonObject, type);
}
public static object DeserializeObject(string json, Type type)
{
return DeserializeObject(json, type, null);
}
public static T DeserializeObject<T>(string json, IJsonSerializerStrategy jsonSerializerStrategy)
{
return (T)DeserializeObject(json, typeof(T), jsonSerializerStrategy);
}
public static T DeserializeObject<T>(string json)
{
return (T)DeserializeObject(json, typeof(T), null);
}
/// <summary>
/// Converts a IDictionary<string,object> / IList<object> object into a JSON string
/// </summary>
/// <param name="json">A IDictionary<string,object> / IList<object></param>
/// <param name="jsonSerializerStrategy">Serializer strategy to use</param>
/// <returns>A JSON encoded string, or null if object 'json' is not serializable</returns>
public static string SerializeObject(object json, IJsonSerializerStrategy jsonSerializerStrategy)
{
StringBuilder builder = new StringBuilder(BUILDER_CAPACITY);
bool success = SerializeValue(jsonSerializerStrategy, json, builder);
return (success ? builder.ToString() : null);
}
public static string SerializeObject(object json)
{
return SerializeObject(json, CurrentJsonSerializerStrategy);
}
public static string EscapeToJavascriptString(string jsonString)
{
if (string.IsNullOrEmpty(jsonString))
return jsonString;
StringBuilder sb = new StringBuilder();
char c;
for (int i = 0; i < jsonString.Length; )
{
c = jsonString[i++];
if (c == '\\')
{
int remainingLength = jsonString.Length - i;
if (remainingLength >= 2)
{
char lookahead = jsonString[i];
if (lookahead == '\\')
{
sb.Append('\\');
++i;
}
else if (lookahead == '"')
{
sb.Append("\"");
++i;
}
else if (lookahead == 't')
{
sb.Append('\t');
++i;
}
else if (lookahead == 'b')
{
sb.Append('\b');
++i;
}
else if (lookahead == 'n')
{
sb.Append('\n');
++i;
}
else if (lookahead == 'r')
{
sb.Append('\r');
++i;
}
}
}
else
{
sb.Append(c);
}
}
return sb.ToString();
}
static IDictionary<string, object> ParseObject(char[] json, ref int index, ref bool success)
{
IDictionary<string, object> table = new JsonObject();
int token;
// {
NextToken(json, ref index);
bool done = false;
while (!done)
{
token = LookAhead(json, index);
if (token == TOKEN_NONE)
{
success = false;
return null;
}
else if (token == TOKEN_COMMA)
NextToken(json, ref index);
else if (token == TOKEN_CURLY_CLOSE)
{
NextToken(json, ref index);
return table;
}
else
{
// name
string name = ParseString(json, ref index, ref success);
if (!success)
{
success = false;
return null;
}
// :
token = NextToken(json, ref index);
if (token != TOKEN_COLON)
{
success = false;
return null;
}
// value
object value = ParseValue(json, ref index, ref success);
if (!success)
{
success = false;
return null;
}
table[name] = value;
}
}
return table;
}
static JsonArray ParseArray(char[] json, ref int index, ref bool success)
{
JsonArray array = new JsonArray();
// [
NextToken(json, ref index);
bool done = false;
while (!done)
{
int token = LookAhead(json, index);
if (token == TOKEN_NONE)
{
success = false;
return null;
}
else if (token == TOKEN_COMMA)
NextToken(json, ref index);
else if (token == TOKEN_SQUARED_CLOSE)
{
NextToken(json, ref index);
break;
}
else
{
object value = ParseValue(json, ref index, ref success);
if (!success)
return null;
array.Add(value);
}
}
return array;
}
static object ParseValue(char[] json, ref int index, ref bool success)
{
switch (LookAhead(json, index))
{
case TOKEN_STRING:
return ParseString(json, ref index, ref success);
case TOKEN_NUMBER:
return ParseNumber(json, ref index, ref success);
case TOKEN_CURLY_OPEN:
return ParseObject(json, ref index, ref success);
case TOKEN_SQUARED_OPEN:
return ParseArray(json, ref index, ref success);
case TOKEN_TRUE:
NextToken(json, ref index);
return true;
case TOKEN_FALSE:
NextToken(json, ref index);
return false;
case TOKEN_NULL:
NextToken(json, ref index);
return null;
case TOKEN_NONE:
break;
}
success = false;
return null;
}
static string ParseString(char[] json, ref int index, ref bool success)
{
StringBuilder s = new StringBuilder(BUILDER_CAPACITY);
char c;
EatWhitespace(json, ref index);
// "
c = json[index++];
bool complete = false;
while (!complete)
{
if (index == json.Length)
break;
c = json[index++];
if (c == '"')
{
complete = true;
break;
}
else if (c == '\\')
{
if (index == json.Length)
break;
c = json[index++];
if (c == '"')
s.Append('"');
else if (c == '\\')
s.Append('\\');
else if (c == '/')
s.Append('/');
else if (c == 'b')
s.Append('\b');
else if (c == 'f')
s.Append('\f');
else if (c == 'n')
s.Append('\n');
else if (c == 'r')
s.Append('\r');
else if (c == 't')
s.Append('\t');
else if (c == 'u')
{
int remainingLength = json.Length - index;
if (remainingLength >= 4)
{
// parse the 32 bit hex into an integer codepoint
uint codePoint;
if (!(success = UInt32.TryParse(new string(json, index, 4), NumberStyles.HexNumber, CultureInfo.InvariantCulture, out codePoint)))
return "";
// convert the integer codepoint to a unicode char and add to string
if (0xD800 <= codePoint && codePoint <= 0xDBFF) // if high surrogate
{
index += 4; // skip 4 chars
remainingLength = json.Length - index;
if (remainingLength >= 6)
{
uint lowCodePoint;
if (new string(json, index, 2) == "\\u" && UInt32.TryParse(new string(json, index + 2, 4), NumberStyles.HexNumber, CultureInfo.InvariantCulture, out lowCodePoint))
{
if (0xDC00 <= lowCodePoint && lowCodePoint <= 0xDFFF) // if low surrogate
{
s.Append((char)codePoint);
s.Append((char)lowCodePoint);
index += 6; // skip 6 chars
continue;
}
}
}
success = false; // invalid surrogate pair
return "";
}
s.Append(ConvertFromUtf32((int)codePoint));
// skip 4 chars
index += 4;
}
else
break;
}
}
else
s.Append(c);
}
if (!complete)
{
success = false;
return null;
}
return s.ToString();
}
private static string ConvertFromUtf32(int utf32)
{
// http://www.java2s.com/Open-Source/CSharp/2.6.4-mono-.net-core/System/System/Char.cs.htm
if (utf32 < 0 || utf32 > 0x10FFFF)
throw new ArgumentOutOfRangeException("utf32", "The argument must be from 0 to 0x10FFFF.");
if (0xD800 <= utf32 && utf32 <= 0xDFFF)
throw new ArgumentOutOfRangeException("utf32", "The argument must not be in surrogate pair range.");
if (utf32 < 0x10000)
return new string((char)utf32, 1);
utf32 -= 0x10000;
return new string(new char[] { (char)((utf32 >> 10) + 0xD800), (char)(utf32 % 0x0400 + 0xDC00) });
}
static object ParseNumber(char[] json, ref int index, ref bool success)
{
EatWhitespace(json, ref index);
int lastIndex = GetLastIndexOfNumber(json, index);
int charLength = (lastIndex - index) + 1;
object returnNumber;
string str = new string(json, index, charLength);
if (str.IndexOf(".", StringComparison.OrdinalIgnoreCase) != -1 || str.IndexOf("e", StringComparison.OrdinalIgnoreCase) != -1)
{
double number;
success = double.TryParse(new string(json, index, charLength), NumberStyles.Any, CultureInfo.InvariantCulture, out number);
returnNumber = number;
}
else
{
long number;
success = long.TryParse(new string(json, index, charLength), NumberStyles.Any, CultureInfo.InvariantCulture, out number);
returnNumber = number;
}
index = lastIndex + 1;
return returnNumber;
}
static int GetLastIndexOfNumber(char[] json, int index)
{
int lastIndex;
for (lastIndex = index; lastIndex < json.Length; lastIndex++)
if ("0123456789+-.eE".IndexOf(json[lastIndex]) == -1) break;
return lastIndex - 1;
}
static void EatWhitespace(char[] json, ref int index)
{
for (; index < json.Length; index++)
if (" \t\n\r\b\f".IndexOf(json[index]) == -1) break;
}
static int LookAhead(char[] json, int index)
{
int saveIndex = index;
return NextToken(json, ref saveIndex);
}
[SuppressMessage("Microsoft.Maintainability", "CA1502:AvoidExcessiveComplexity")]
static int NextToken(char[] json, ref int index)
{
EatWhitespace(json, ref index);
if (index == json.Length)
return TOKEN_NONE;
char c = json[index];
index++;
switch (c)
{
case '{':
return TOKEN_CURLY_OPEN;
case '}':
return TOKEN_CURLY_CLOSE;
case '[':
return TOKEN_SQUARED_OPEN;
case ']':
return TOKEN_SQUARED_CLOSE;
case ',':
return TOKEN_COMMA;
case '"':
return TOKEN_STRING;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
case '-':
return TOKEN_NUMBER;
case ':':
return TOKEN_COLON;
}
index--;
int remainingLength = json.Length - index;
// false
if (remainingLength >= 5)
{
if (json[index] == 'f' && json[index + 1] == 'a' && json[index + 2] == 'l' && json[index + 3] == 's' && json[index + 4] == 'e')
{
index += 5;
return TOKEN_FALSE;
}
}
// true
if (remainingLength >= 4)
{
if (json[index] == 't' && json[index + 1] == 'r' && json[index + 2] == 'u' && json[index + 3] == 'e')
{
index += 4;
return TOKEN_TRUE;
}
}
// null
if (remainingLength >= 4)
{
if (json[index] == 'n' && json[index + 1] == 'u' && json[index + 2] == 'l' && json[index + 3] == 'l')
{
index += 4;
return TOKEN_NULL;
}
}
return TOKEN_NONE;
}
static bool SerializeValue(IJsonSerializerStrategy jsonSerializerStrategy, object value, StringBuilder builder)
{
bool success = true;
string stringValue = value as string;
if (stringValue != null)
success = SerializeString(stringValue, builder);
else
{
IDictionary<string, object> dict = value as IDictionary<string, object>;
if (dict != null)
{
success = SerializeObject(jsonSerializerStrategy, dict.Keys, dict.Values, builder);
}
else
{
IDictionary<string, string> stringDictionary = value as IDictionary<string, string>;
if (stringDictionary != null)
{
success = SerializeObject(jsonSerializerStrategy, stringDictionary.Keys, stringDictionary.Values, builder);
}
else
{
IEnumerable enumerableValue = value as IEnumerable;
if (enumerableValue != null)
success = SerializeArray(jsonSerializerStrategy, enumerableValue, builder);
else if (IsNumeric(value))
success = SerializeNumber(value, builder);
else if (value is bool)
builder.Append((bool)value ? "true" : "false");
else if (value == null)
builder.Append("null");
else
{
object serializedObject;
success = jsonSerializerStrategy.TrySerializeNonPrimitiveObject(value, out serializedObject);
if (success)
SerializeValue(jsonSerializerStrategy, serializedObject, builder);
}
}
}
}
return success;
}
static bool SerializeObject(IJsonSerializerStrategy jsonSerializerStrategy, IEnumerable keys, IEnumerable values, StringBuilder builder)
{
builder.Append("{");
IEnumerator ke = keys.GetEnumerator();
IEnumerator ve = values.GetEnumerator();
bool first = true;
while (ke.MoveNext() && ve.MoveNext())
{
object key = ke.Current;
object value = ve.Current;
if (!first)
builder.Append(",");
string stringKey = key as string;
if (stringKey != null)
SerializeString(stringKey, builder);
else
if (!SerializeValue(jsonSerializerStrategy, value, builder)) return false;
builder.Append(":");
if (!SerializeValue(jsonSerializerStrategy, value, builder))
return false;
first = false;
}
builder.Append("}");
return true;
}
static bool SerializeArray(IJsonSerializerStrategy jsonSerializerStrategy, IEnumerable anArray, StringBuilder builder)
{
builder.Append("[");
bool first = true;
foreach (object value in anArray)
{
if (!first)
builder.Append(",");
if (!SerializeValue(jsonSerializerStrategy, value, builder))
return false;
first = false;
}
builder.Append("]");
return true;
}
static bool SerializeString(string aString, StringBuilder builder)
{
// Happy path if there's nothing to be escaped. IndexOfAny is highly optimized (and unmanaged)
if (aString.IndexOfAny(EscapeCharacters) == -1)
{
builder.Append('"');
builder.Append(aString);
builder.Append('"');
return true;
}
builder.Append('"');
int safeCharacterCount = 0;
char[] charArray = aString.ToCharArray();
for (int i = 0; i < charArray.Length; i++)
{
char c = charArray[i];
// Non ascii characters are fine, buffer them up and send them to the builder
// in larger chunks if possible. The escape table is a 1:1 translation table
// with \0 [default(char)] denoting a safe character.
if (c >= EscapeTable.Length || EscapeTable[c] == default(char))
{
safeCharacterCount++;
}
else
{
if (safeCharacterCount > 0)
{
builder.Append(charArray, i - safeCharacterCount, safeCharacterCount);
safeCharacterCount = 0;
}
builder.Append('\\');
builder.Append(EscapeTable[c]);
}
}
if (safeCharacterCount > 0)
{
builder.Append(charArray, charArray.Length - safeCharacterCount, safeCharacterCount);
}
builder.Append('"');
return true;
}
static bool SerializeNumber(object number, StringBuilder builder)
{
if (number is long)
builder.Append(((long)number).ToString(CultureInfo.InvariantCulture));
else if (number is ulong)
builder.Append(((ulong)number).ToString(CultureInfo.InvariantCulture));
else if (number is int)
builder.Append(((int)number).ToString(CultureInfo.InvariantCulture));
else if (number is uint)
builder.Append(((uint)number).ToString(CultureInfo.InvariantCulture));
else if (number is decimal)
builder.Append(((decimal)number).ToString(CultureInfo.InvariantCulture));
else if (number is float)
builder.Append(((float)number).ToString(CultureInfo.InvariantCulture));
else
builder.Append(Convert.ToDouble(number, CultureInfo.InvariantCulture).ToString("r", CultureInfo.InvariantCulture));
return true;
}
/// <summary>
/// Determines if a given object is numeric in any way
/// (can be integer, double, null, etc).
/// </summary>
static bool IsNumeric(object value)
{
if (value is sbyte) return true;
if (value is byte) return true;
if (value is short) return true;
if (value is ushort) return true;
if (value is int) return true;
if (value is uint) return true;
if (value is long) return true;
if (value is ulong) return true;
if (value is float) return true;
if (value is double) return true;
if (value is decimal) return true;
return false;
}
private static IJsonSerializerStrategy _currentJsonSerializerStrategy;
public static IJsonSerializerStrategy CurrentJsonSerializerStrategy
{
get
{
return _currentJsonSerializerStrategy ??
(_currentJsonSerializerStrategy =
#if SIMPLE_JSON_DATACONTRACT
DataContractJsonSerializerStrategy
#else
PocoJsonSerializerStrategy
#endif
);
}
set
{
_currentJsonSerializerStrategy = value;
}
}
private static PocoJsonSerializerStrategy _pocoJsonSerializerStrategy;
[EditorBrowsable(EditorBrowsableState.Advanced)]
public static PocoJsonSerializerStrategy PocoJsonSerializerStrategy
{
get
{
return _pocoJsonSerializerStrategy ?? (_pocoJsonSerializerStrategy = new PocoJsonSerializerStrategy());
}
}
#if SIMPLE_JSON_DATACONTRACT
private static DataContractJsonSerializerStrategy _dataContractJsonSerializerStrategy;
[System.ComponentModel.EditorBrowsable(EditorBrowsableState.Advanced)]
public static DataContractJsonSerializerStrategy DataContractJsonSerializerStrategy
{
get
{
return _dataContractJsonSerializerStrategy ?? (_dataContractJsonSerializerStrategy = new DataContractJsonSerializerStrategy());
}
}
#endif
}
[GeneratedCode("simple-json", "1.0.0")]
#if SIMPLE_JSON_INTERNAL
internal
#else
public
#endif
interface IJsonSerializerStrategy
{
[SuppressMessage("Microsoft.Design", "CA1007:UseGenericsWhereAppropriate", Justification="Need to support .NET 2")]
bool TrySerializeNonPrimitiveObject(object input, out object output);
object DeserializeObject(object value, Type type);
}
[GeneratedCode("simple-json", "1.0.0")]
#if SIMPLE_JSON_INTERNAL
internal
#else
public
#endif
class PocoJsonSerializerStrategy : IJsonSerializerStrategy
{
internal IDictionary<Type, ReflectionUtils.ConstructorDelegate> ConstructorCache;
internal IDictionary<Type, IDictionary<string, ReflectionUtils.GetDelegate>> GetCache;
internal IDictionary<Type, IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>>> SetCache;
internal static readonly Type[] EmptyTypes = new Type[0];
internal static readonly Type[] ArrayConstructorParameterTypes = new Type[] { typeof(int) };
private static readonly string[] Iso8601Format = new string[]
{
@"yyyy-MM-dd\THH:mm:ss.FFFFFFF\Z",
@"yyyy-MM-dd\THH:mm:ss\Z",
@"yyyy-MM-dd\THH:mm:ssK"
};
public PocoJsonSerializerStrategy()
{
ConstructorCache = new ReflectionUtils.ThreadSafeDictionary<Type, ReflectionUtils.ConstructorDelegate>(ContructorDelegateFactory);
GetCache = new ReflectionUtils.ThreadSafeDictionary<Type, IDictionary<string, ReflectionUtils.GetDelegate>>(GetterValueFactory);
SetCache = new ReflectionUtils.ThreadSafeDictionary<Type, IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>>>(SetterValueFactory);
}
protected virtual string MapClrMemberNameToJsonFieldName(string clrPropertyName)
{
return clrPropertyName;
}
internal virtual ReflectionUtils.ConstructorDelegate ContructorDelegateFactory(Type key)
{
return ReflectionUtils.GetContructor(key, key.IsArray ? ArrayConstructorParameterTypes : EmptyTypes);
}
internal virtual IDictionary<string, ReflectionUtils.GetDelegate> GetterValueFactory(Type type)
{
IDictionary<string, ReflectionUtils.GetDelegate> result = new Dictionary<string, ReflectionUtils.GetDelegate>();
foreach (PropertyInfo propertyInfo in ReflectionUtils.GetProperties(type))
{
if (propertyInfo.CanRead)
{
MethodInfo getMethod = ReflectionUtils.GetGetterMethodInfo(propertyInfo);
if (getMethod.IsStatic || !getMethod.IsPublic)
continue;
result[MapClrMemberNameToJsonFieldName(propertyInfo.Name)] = ReflectionUtils.GetGetMethod(propertyInfo);
}
}
foreach (FieldInfo fieldInfo in ReflectionUtils.GetFields(type))
{
if (fieldInfo.IsStatic || !fieldInfo.IsPublic)
continue;
result[MapClrMemberNameToJsonFieldName(fieldInfo.Name)] = ReflectionUtils.GetGetMethod(fieldInfo);
}
return result;
}
internal virtual IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>> SetterValueFactory(Type type)
{
IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>> result = new Dictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>>();
foreach (PropertyInfo propertyInfo in ReflectionUtils.GetProperties(type))
{
if (propertyInfo.CanWrite)
{
MethodInfo setMethod = ReflectionUtils.GetSetterMethodInfo(propertyInfo);
if (setMethod.IsStatic || !setMethod.IsPublic)
continue;
result[MapClrMemberNameToJsonFieldName(propertyInfo.Name)] = new KeyValuePair<Type, ReflectionUtils.SetDelegate>(propertyInfo.PropertyType, ReflectionUtils.GetSetMethod(propertyInfo));
}
}
foreach (FieldInfo fieldInfo in ReflectionUtils.GetFields(type))
{
if (fieldInfo.IsInitOnly || fieldInfo.IsStatic || !fieldInfo.IsPublic)
continue;
result[MapClrMemberNameToJsonFieldName(fieldInfo.Name)] = new KeyValuePair<Type, ReflectionUtils.SetDelegate>(fieldInfo.FieldType, ReflectionUtils.GetSetMethod(fieldInfo));
}
return result;
}
public virtual bool TrySerializeNonPrimitiveObject(object input, out object output)
{
return TrySerializeKnownTypes(input, out output) || TrySerializeUnknownTypes(input, out output);
}
[SuppressMessage("Microsoft.Maintainability", "CA1502:AvoidExcessiveComplexity")]
public virtual object DeserializeObject(object value, Type type)
{
if (type == null) throw new ArgumentNullException("type");
string str = value as string;
if (type == typeof (Guid) && string.IsNullOrEmpty(str))
return default(Guid);
if (value == null)
return null;
object obj = null;
if (str != null)
{
if (str.Length != 0) // We know it can't be null now.
{
if (type == typeof(DateTime) || (ReflectionUtils.IsNullableType(type) && Nullable.GetUnderlyingType(type) == typeof(DateTime)))
return DateTime.ParseExact(str, Iso8601Format, CultureInfo.InvariantCulture, DateTimeStyles.AssumeUniversal | DateTimeStyles.AdjustToUniversal);
if (type == typeof(DateTimeOffset) || (ReflectionUtils.IsNullableType(type) && Nullable.GetUnderlyingType(type) == typeof(DateTimeOffset)))
return DateTimeOffset.ParseExact(str, Iso8601Format, CultureInfo.InvariantCulture, DateTimeStyles.AssumeUniversal | DateTimeStyles.AdjustToUniversal);
if (type == typeof(Guid) || (ReflectionUtils.IsNullableType(type) && Nullable.GetUnderlyingType(type) == typeof(Guid)))
return new Guid(str);
if (type == typeof(Uri))
{
bool isValid = Uri.IsWellFormedUriString(str, UriKind.RelativeOrAbsolute);
Uri result;
if (isValid && Uri.TryCreate(str, UriKind.RelativeOrAbsolute, out result))
return result;
return null;
}
if (type == typeof(string))
return str;
return Convert.ChangeType(str, type, CultureInfo.InvariantCulture);
}
else
{
if (type == typeof(Guid))
obj = default(Guid);
else if (ReflectionUtils.IsNullableType(type) && Nullable.GetUnderlyingType(type) == typeof(Guid))
obj = null;
else
obj = str;
}
// Empty string case
if (!ReflectionUtils.IsNullableType(type) && Nullable.GetUnderlyingType(type) == typeof(Guid))
return str;
}
else if (value is bool)
return value;
bool valueIsLong = value is long;
bool valueIsDouble = value is double;
if ((valueIsLong && type == typeof(long)) || (valueIsDouble && type == typeof(double)))
return value;
if ((valueIsDouble && type != typeof(double)) || (valueIsLong && type != typeof(long)))
{
obj = type == typeof(int) || type == typeof(long) || type == typeof(double) || type == typeof(float) || type == typeof(bool) || type == typeof(decimal) || type == typeof(byte) || type == typeof(short)
? Convert.ChangeType(value, type, CultureInfo.InvariantCulture)
: value;
}
else
{
IDictionary<string, object> objects = value as IDictionary<string, object>;
if (objects != null)
{
IDictionary<string, object> jsonObject = objects;
if (ReflectionUtils.IsTypeDictionary(type))
{
// if dictionary then
Type[] types = ReflectionUtils.GetGenericTypeArguments(type);
Type keyType = types[0];
Type valueType = types[1];
Type genericType = typeof(Dictionary<,>).MakeGenericType(keyType, valueType);
IDictionary dict = (IDictionary)ConstructorCache[genericType]();
foreach (KeyValuePair<string, object> kvp in jsonObject)
dict.Add(kvp.Key, DeserializeObject(kvp.Value, valueType));
obj = dict;
}
else
{
if (type == typeof(object))
obj = value;
else
{
obj = ConstructorCache[type]();
foreach (KeyValuePair<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>> setter in SetCache[type])
{
object jsonValue;
if (jsonObject.TryGetValue(setter.Key, out jsonValue))
{
jsonValue = DeserializeObject(jsonValue, setter.Value.Key);
setter.Value.Value(obj, jsonValue);
}
}
}
}
}
else
{
IList<object> valueAsList = value as IList<object>;
if (valueAsList != null)
{
IList<object> jsonObject = valueAsList;
IList list = null;
if (type.IsArray)
{
list = (IList)ConstructorCache[type](jsonObject.Count);
int i = 0;
foreach (object o in jsonObject)
list[i++] = DeserializeObject(o, type.GetElementType());
}
else if (ReflectionUtils.IsTypeGenericeCollectionInterface(type) || ReflectionUtils.IsAssignableFrom(typeof(IList), type))
{
Type innerType = ReflectionUtils.GetGenericListElementType(type);
list = (IList)(ConstructorCache[type] ?? ConstructorCache[typeof(List<>).MakeGenericType(innerType)])(jsonObject.Count);
foreach (object o in jsonObject)
list.Add(DeserializeObject(o, innerType));
}
obj = list;
}
}
return obj;
}
if (ReflectionUtils.IsNullableType(type))
return ReflectionUtils.ToNullableType(obj, type);
return obj;
}
protected virtual object SerializeEnum(Enum p)
{
return Convert.ToDouble(p, CultureInfo.InvariantCulture);
}
[SuppressMessage("Microsoft.Design", "CA1007:UseGenericsWhereAppropriate", Justification="Need to support .NET 2")]
protected virtual bool TrySerializeKnownTypes(object input, out object output)
{
bool returnValue = true;
if (input is DateTime)
output = ((DateTime)input).ToUniversalTime().ToString(Iso8601Format[0], CultureInfo.InvariantCulture);
else if (input is DateTimeOffset)
output = ((DateTimeOffset)input).ToUniversalTime().ToString(Iso8601Format[0], CultureInfo.InvariantCulture);
else if (input is Guid)
output = ((Guid)input).ToString("D");
else if (input is Uri)
output = input.ToString();
else
{
Enum inputEnum = input as Enum;
if (inputEnum != null)
output = SerializeEnum(inputEnum);
else
{
returnValue = false;
output = null;
}
}
return returnValue;
}
[SuppressMessage("Microsoft.Design", "CA1007:UseGenericsWhereAppropriate", Justification="Need to support .NET 2")]
protected virtual bool TrySerializeUnknownTypes(object input, out object output)
{
if (input == null) throw new ArgumentNullException("input");
output = null;
Type type = input.GetType();
if (type.FullName == null)
return false;
IDictionary<string, object> obj = new JsonObject();
IDictionary<string, ReflectionUtils.GetDelegate> getters = GetCache[type];
foreach (KeyValuePair<string, ReflectionUtils.GetDelegate> getter in getters)
{
if (getter.Value != null)
obj.Add(MapClrMemberNameToJsonFieldName(getter.Key), getter.Value(input));
}
output = obj;
return true;
}
}
#if SIMPLE_JSON_DATACONTRACT
[GeneratedCode("simple-json", "1.0.0")]
#if SIMPLE_JSON_INTERNAL
internal
#else
public
#endif
class DataContractJsonSerializerStrategy : PocoJsonSerializerStrategy
{
public DataContractJsonSerializerStrategy()
{
GetCache = new ReflectionUtils.ThreadSafeDictionary<Type, IDictionary<string, ReflectionUtils.GetDelegate>>(GetterValueFactory);
SetCache = new ReflectionUtils.ThreadSafeDictionary<Type, IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>>>(SetterValueFactory);
}
internal override IDictionary<string, ReflectionUtils.GetDelegate> GetterValueFactory(Type type)
{
bool hasDataContract = ReflectionUtils.GetAttribute(type, typeof(DataContractAttribute)) != null;
if (!hasDataContract)
return base.GetterValueFactory(type);
string jsonKey;
IDictionary<string, ReflectionUtils.GetDelegate> result = new Dictionary<string, ReflectionUtils.GetDelegate>();
foreach (PropertyInfo propertyInfo in ReflectionUtils.GetProperties(type))
{
if (propertyInfo.CanRead)
{
MethodInfo getMethod = ReflectionUtils.GetGetterMethodInfo(propertyInfo);
if (!getMethod.IsStatic && CanAdd(propertyInfo, out jsonKey))
result[jsonKey] = ReflectionUtils.GetGetMethod(propertyInfo);
}
}
foreach (FieldInfo fieldInfo in ReflectionUtils.GetFields(type))
{
if (!fieldInfo.IsStatic && CanAdd(fieldInfo, out jsonKey))
result[jsonKey] = ReflectionUtils.GetGetMethod(fieldInfo);
}
return result;
}
internal override IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>> SetterValueFactory(Type type)
{
bool hasDataContract = ReflectionUtils.GetAttribute(type, typeof(DataContractAttribute)) != null;
if (!hasDataContract)
return base.SetterValueFactory(type);
string jsonKey;
IDictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>> result = new Dictionary<string, KeyValuePair<Type, ReflectionUtils.SetDelegate>>();
foreach (PropertyInfo propertyInfo in ReflectionUtils.GetProperties(type))
{
if (propertyInfo.CanWrite)
{
MethodInfo setMethod = ReflectionUtils.GetSetterMethodInfo(propertyInfo);
if (!setMethod.IsStatic && CanAdd(propertyInfo, out jsonKey))
result[jsonKey] = new KeyValuePair<Type, ReflectionUtils.SetDelegate>(propertyInfo.PropertyType, ReflectionUtils.GetSetMethod(propertyInfo));
}
}
foreach (FieldInfo fieldInfo in ReflectionUtils.GetFields(type))
{
if (!fieldInfo.IsInitOnly && !fieldInfo.IsStatic && CanAdd(fieldInfo, out jsonKey))
result[jsonKey] = new KeyValuePair<Type, ReflectionUtils.SetDelegate>(fieldInfo.FieldType, ReflectionUtils.GetSetMethod(fieldInfo));
}
// todo implement sorting for DATACONTRACT.
return result;
}
private static bool CanAdd(MemberInfo info, out string jsonKey)
{
jsonKey = null;
if (ReflectionUtils.GetAttribute(info, typeof(IgnoreDataMemberAttribute)) != null)
return false;
DataMemberAttribute dataMemberAttribute = (DataMemberAttribute)ReflectionUtils.GetAttribute(info, typeof(DataMemberAttribute));
if (dataMemberAttribute == null)
return false;
jsonKey = string.IsNullOrEmpty(dataMemberAttribute.Name) ? info.Name : dataMemberAttribute.Name;
return true;
}
}
#endif
namespace Reflection
{
// This class is meant to be copied into other libraries. So we want to exclude it from Code Analysis rules
// that might be in place in the target project.
[GeneratedCode("reflection-utils", "1.0.0")]
#if SIMPLE_JSON_REFLECTION_UTILS_PUBLIC
public
#else
internal
#endif
class ReflectionUtils
{
private static readonly object[] EmptyObjects = new object[] { };
public delegate object GetDelegate(object source);
public delegate void SetDelegate(object source, object value);
public delegate object ConstructorDelegate(params object[] args);
public delegate TValue ThreadSafeDictionaryValueFactory<TKey, TValue>(TKey key);
#if SIMPLE_JSON_TYPEINFO
public static TypeInfo GetTypeInfo(Type type)
{
return type.GetTypeInfo();
}
#else
public static Type GetTypeInfo(Type type)
{
return type;
}
#endif
public static Attribute GetAttribute(MemberInfo info, Type type)
{
#if SIMPLE_JSON_TYPEINFO
if (info == null || type == null || !info.IsDefined(type))
return null;
return info.GetCustomAttribute(type);
#else
if (info == null || type == null || !Attribute.IsDefined(info, type))
return null;
return Attribute.GetCustomAttribute(info, type);
#endif
}
public static Type GetGenericListElementType(Type type)
{
IEnumerable<Type> interfaces;
#if SIMPLE_JSON_TYPEINFO
interfaces = type.GetTypeInfo().ImplementedInterfaces;
#else
interfaces = type.GetInterfaces();
#endif
foreach (Type implementedInterface in interfaces)
{
if (IsTypeGeneric(implementedInterface) &&
implementedInterface.GetGenericTypeDefinition() == typeof (IList<>))
{
return GetGenericTypeArguments(implementedInterface)[0];
}
}
return GetGenericTypeArguments(type)[0];
}
public static Attribute GetAttribute(Type objectType, Type attributeType)
{
#if SIMPLE_JSON_TYPEINFO
if (objectType == null || attributeType == null || !objectType.GetTypeInfo().IsDefined(attributeType))
return null;
return objectType.GetTypeInfo().GetCustomAttribute(attributeType);
#else
if (objectType == null || attributeType == null || !Attribute.IsDefined(objectType, attributeType))
return null;
return Attribute.GetCustomAttribute(objectType, attributeType);
#endif
}
public static Type[] GetGenericTypeArguments(Type type)
{
#if SIMPLE_JSON_TYPEINFO
return type.GetTypeInfo().GenericTypeArguments;
#else
return type.GetGenericArguments();
#endif
}
public static bool IsTypeGeneric(Type type)
{
return GetTypeInfo(type).IsGenericType;
}
public static bool IsTypeGenericeCollectionInterface(Type type)
{
if (!IsTypeGeneric(type))
return false;
Type genericDefinition = type.GetGenericTypeDefinition();
return (genericDefinition == typeof(IList<>)
|| genericDefinition == typeof(ICollection<>)
|| genericDefinition == typeof(IEnumerable<>)
#if SIMPLE_JSON_READONLY_COLLECTIONS
|| genericDefinition == typeof(IReadOnlyCollection<>)
|| genericDefinition == typeof(IReadOnlyList<>)
#endif
);
}
public static bool IsAssignableFrom(Type type1, Type type2)
{
return GetTypeInfo(type1).IsAssignableFrom(GetTypeInfo(type2));
}
public static bool IsTypeDictionary(Type type)
{
#if SIMPLE_JSON_TYPEINFO
if (typeof(IDictionary<,>).GetTypeInfo().IsAssignableFrom(type.GetTypeInfo()))
return true;
#else
if (typeof(System.Collections.IDictionary).IsAssignableFrom(type))
return true;
#endif
if (!GetTypeInfo(type).IsGenericType)
return false;
Type genericDefinition = type.GetGenericTypeDefinition();
return genericDefinition == typeof(IDictionary<,>);
}
public static bool IsNullableType(Type type)
{
return GetTypeInfo(type).IsGenericType && type.GetGenericTypeDefinition() == typeof(Nullable<>);
}
public static object ToNullableType(object obj, Type nullableType)
{
return obj == null ? null : Convert.ChangeType(obj, Nullable.GetUnderlyingType(nullableType), CultureInfo.InvariantCulture);
}
public static bool IsValueType(Type type)
{
return GetTypeInfo(type).IsValueType;
}
public static IEnumerable<ConstructorInfo> GetConstructors(Type type)
{
#if SIMPLE_JSON_TYPEINFO
return type.GetTypeInfo().DeclaredConstructors;
#else
return type.GetConstructors();
#endif
}
public static ConstructorInfo GetConstructorInfo(Type type, params Type[] argsType)
{
IEnumerable<ConstructorInfo> constructorInfos = GetConstructors(type);
int i;
bool matches;
foreach (ConstructorInfo constructorInfo in constructorInfos)
{
ParameterInfo[] parameters = constructorInfo.GetParameters();
if (argsType.Length != parameters.Length)
continue;
i = 0;
matches = true;
foreach (ParameterInfo parameterInfo in constructorInfo.GetParameters())
{
if (parameterInfo.ParameterType != argsType[i])
{
matches = false;
break;
}
}
if (matches)
return constructorInfo;
}
return null;
}
public static IEnumerable<PropertyInfo> GetProperties(Type type)
{
#if SIMPLE_JSON_TYPEINFO
return type.GetRuntimeProperties();
#else
return type.GetProperties(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static);
#endif
}
public static IEnumerable<FieldInfo> GetFields(Type type)
{
#if SIMPLE_JSON_TYPEINFO
return type.GetRuntimeFields();
#else
return type.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static);
#endif
}
public static MethodInfo GetGetterMethodInfo(PropertyInfo propertyInfo)
{
#if SIMPLE_JSON_TYPEINFO
return propertyInfo.GetMethod;
#else
return propertyInfo.GetGetMethod(true);
#endif
}
public static MethodInfo GetSetterMethodInfo(PropertyInfo propertyInfo)
{
#if SIMPLE_JSON_TYPEINFO
return propertyInfo.SetMethod;
#else
return propertyInfo.GetSetMethod(true);
#endif
}
public static ConstructorDelegate GetContructor(ConstructorInfo constructorInfo)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetConstructorByReflection(constructorInfo);
#else
return GetConstructorByExpression(constructorInfo);
#endif
}
public static ConstructorDelegate GetContructor(Type type, params Type[] argsType)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetConstructorByReflection(type, argsType);
#else
return GetConstructorByExpression(type, argsType);
#endif
}
public static ConstructorDelegate GetConstructorByReflection(ConstructorInfo constructorInfo)
{
return delegate(object[] args) { return constructorInfo.Invoke(args); };
}
public static ConstructorDelegate GetConstructorByReflection(Type type, params Type[] argsType)
{
ConstructorInfo constructorInfo = GetConstructorInfo(type, argsType);
return constructorInfo == null ? null : GetConstructorByReflection(constructorInfo);
}
#if !SIMPLE_JSON_NO_LINQ_EXPRESSION
public static ConstructorDelegate GetConstructorByExpression(ConstructorInfo constructorInfo)
{
ParameterInfo[] paramsInfo = constructorInfo.GetParameters();
ParameterExpression param = Expression.Parameter(typeof(object[]), "args");
Expression[] argsExp = new Expression[paramsInfo.Length];
for (int i = 0; i < paramsInfo.Length; i++)
{
Expression index = Expression.Constant(i);
Type paramType = paramsInfo[i].ParameterType;
Expression paramAccessorExp = Expression.ArrayIndex(param, index);
Expression paramCastExp = Expression.Convert(paramAccessorExp, paramType);
argsExp[i] = paramCastExp;
}
NewExpression newExp = Expression.New(constructorInfo, argsExp);
Expression<Func<object[], object>> lambda = Expression.Lambda<Func<object[], object>>(newExp, param);
Func<object[], object> compiledLambda = lambda.Compile();
return delegate(object[] args) { return compiledLambda(args); };
}
public static ConstructorDelegate GetConstructorByExpression(Type type, params Type[] argsType)
{
ConstructorInfo constructorInfo = GetConstructorInfo(type, argsType);
return constructorInfo == null ? null : GetConstructorByExpression(constructorInfo);
}
#endif
public static GetDelegate GetGetMethod(PropertyInfo propertyInfo)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetGetMethodByReflection(propertyInfo);
#else
return GetGetMethodByExpression(propertyInfo);
#endif
}
public static GetDelegate GetGetMethod(FieldInfo fieldInfo)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetGetMethodByReflection(fieldInfo);
#else
return GetGetMethodByExpression(fieldInfo);
#endif
}
public static GetDelegate GetGetMethodByReflection(PropertyInfo propertyInfo)
{
MethodInfo methodInfo = GetGetterMethodInfo(propertyInfo);
return delegate(object source) { return methodInfo.Invoke(source, EmptyObjects); };
}
public static GetDelegate GetGetMethodByReflection(FieldInfo fieldInfo)
{
return delegate(object source) { return fieldInfo.GetValue(source); };
}
#if !SIMPLE_JSON_NO_LINQ_EXPRESSION
public static GetDelegate GetGetMethodByExpression(PropertyInfo propertyInfo)
{
MethodInfo getMethodInfo = GetGetterMethodInfo(propertyInfo);
ParameterExpression instance = Expression.Parameter(typeof(object), "instance");
UnaryExpression instanceCast = (!IsValueType(propertyInfo.DeclaringType)) ? Expression.TypeAs(instance, propertyInfo.DeclaringType) : Expression.Convert(instance, propertyInfo.DeclaringType);
Func<object, object> compiled = Expression.Lambda<Func<object, object>>(Expression.TypeAs(Expression.Call(instanceCast, getMethodInfo), typeof(object)), instance).Compile();
return delegate(object source) { return compiled(source); };
}
public static GetDelegate GetGetMethodByExpression(FieldInfo fieldInfo)
{
ParameterExpression instance = Expression.Parameter(typeof(object), "instance");
MemberExpression member = Expression.Field(Expression.Convert(instance, fieldInfo.DeclaringType), fieldInfo);
GetDelegate compiled = Expression.Lambda<GetDelegate>(Expression.Convert(member, typeof(object)), instance).Compile();
return delegate(object source) { return compiled(source); };
}
#endif
public static SetDelegate GetSetMethod(PropertyInfo propertyInfo)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetSetMethodByReflection(propertyInfo);
#else
return GetSetMethodByExpression(propertyInfo);
#endif
}
public static SetDelegate GetSetMethod(FieldInfo fieldInfo)
{
#if SIMPLE_JSON_NO_LINQ_EXPRESSION
return GetSetMethodByReflection(fieldInfo);
#else
return GetSetMethodByExpression(fieldInfo);
#endif
}
public static SetDelegate GetSetMethodByReflection(PropertyInfo propertyInfo)
{
MethodInfo methodInfo = GetSetterMethodInfo(propertyInfo);
return delegate(object source, object value) { methodInfo.Invoke(source, new object[] { value }); };
}
public static SetDelegate GetSetMethodByReflection(FieldInfo fieldInfo)
{
return delegate(object source, object value) { fieldInfo.SetValue(source, value); };
}
#if !SIMPLE_JSON_NO_LINQ_EXPRESSION
public static SetDelegate GetSetMethodByExpression(PropertyInfo propertyInfo)
{
MethodInfo setMethodInfo = GetSetterMethodInfo(propertyInfo);
ParameterExpression instance = Expression.Parameter(typeof(object), "instance");
ParameterExpression value = Expression.Parameter(typeof(object), "value");
UnaryExpression instanceCast = (!IsValueType(propertyInfo.DeclaringType)) ? Expression.TypeAs(instance, propertyInfo.DeclaringType) : Expression.Convert(instance, propertyInfo.DeclaringType);
UnaryExpression valueCast = (!IsValueType(propertyInfo.PropertyType)) ? Expression.TypeAs(value, propertyInfo.PropertyType) : Expression.Convert(value, propertyInfo.PropertyType);
Action<object, object> compiled = Expression.Lambda<Action<object, object>>(Expression.Call(instanceCast, setMethodInfo, valueCast), new ParameterExpression[] { instance, value }).Compile();
return delegate(object source, object val) { compiled(source, val); };
}
public static SetDelegate GetSetMethodByExpression(FieldInfo fieldInfo)
{
ParameterExpression instance = Expression.Parameter(typeof(object), "instance");
ParameterExpression value = Expression.Parameter(typeof(object), "value");
Action<object, object> compiled = Expression.Lambda<Action<object, object>>(
Assign(Expression.Field(Expression.Convert(instance, fieldInfo.DeclaringType), fieldInfo), Expression.Convert(value, fieldInfo.FieldType)), instance, value).Compile();
return delegate(object source, object val) { compiled(source, val); };
}
public static BinaryExpression Assign(Expression left, Expression right)
{
#if SIMPLE_JSON_TYPEINFO
return Expression.Assign(left, right);
#else
MethodInfo assign = typeof(Assigner<>).MakeGenericType(left.Type).GetMethod("Assign");
BinaryExpression assignExpr = Expression.Add(left, right, assign);
return assignExpr;
#endif
}
private static class Assigner<T>
{
public static T Assign(ref T left, T right)
{
return (left = right);
}
}
#endif
public sealed class ThreadSafeDictionary<TKey, TValue> : IDictionary<TKey, TValue>
{
private readonly object _lock = new object();
private readonly ThreadSafeDictionaryValueFactory<TKey, TValue> _valueFactory;
private Dictionary<TKey, TValue> _dictionary;
public ThreadSafeDictionary(ThreadSafeDictionaryValueFactory<TKey, TValue> valueFactory)
{
_valueFactory = valueFactory;
}
private TValue Get(TKey key)
{
if (_dictionary == null)
return AddValue(key);
TValue value;
if (!_dictionary.TryGetValue(key, out value))
return AddValue(key);
return value;
}
private TValue AddValue(TKey key)
{
TValue value = _valueFactory(key);
lock (_lock)
{
if (_dictionary == null)
{
_dictionary = new Dictionary<TKey, TValue>();
_dictionary[key] = value;
}
else
{
TValue val;
if (_dictionary.TryGetValue(key, out val))
return val;
Dictionary<TKey, TValue> dict = new Dictionary<TKey, TValue>(_dictionary);
dict[key] = value;
_dictionary = dict;
}
}
return value;
}
public void Add(TKey key, TValue value)
{
throw new NotImplementedException();
}
public bool ContainsKey(TKey key)
{
return _dictionary.ContainsKey(key);
}
public ICollection<TKey> Keys
{
get { return _dictionary.Keys; }
}
public bool Remove(TKey key)
{
throw new NotImplementedException();
}
public bool TryGetValue(TKey key, out TValue value)
{
value = this[key];
return true;
}
public ICollection<TValue> Values
{
get { return _dictionary.Values; }
}
public TValue this[TKey key]
{
get { return Get(key); }
set { throw new NotImplementedException(); }
}
public void Add(KeyValuePair<TKey, TValue> item)
{
throw new NotImplementedException();
}
public void Clear()
{
throw new NotImplementedException();
}
public bool Contains(KeyValuePair<TKey, TValue> item)
{
throw new NotImplementedException();
}
public void CopyTo(KeyValuePair<TKey, TValue>[] array, int arrayIndex)
{
throw new NotImplementedException();
}
public int Count
{
get { return _dictionary.Count; }
}
public bool IsReadOnly
{
get { throw new NotImplementedException(); }
}
public bool Remove(KeyValuePair<TKey, TValue> item)
{
throw new NotImplementedException();
}
public IEnumerator<KeyValuePair<TKey, TValue>> GetEnumerator()
{
return _dictionary.GetEnumerator();
}
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator()
{
return _dictionary.GetEnumerator();
}
}
}
}
}
// ReSharper restore LoopCanBeConvertedToQuery
// ReSharper restore RedundantExplicitArrayCreation
// ReSharper restore SuggestUseVarKeywordEvident