//#define USE_SharpZipLib #if !UNITY_WEBPLAYER #define USE_FileIO #endif /* * * * * * A simple JSON Parser / builder * ------------------------------ * * It mainly has been written as a simple JSON parser. It can build a JSON string * from the node-tree, or generate a node tree from any valid JSON string. * * If you want to use compression when saving to file / stream / B64 you have to include * SharpZipLib ( http://www.icsharpcode.net/opensource/sharpziplib/ ) in your project and * define "USE_SharpZipLib" at the top of the file * * Written by Bunny83 * 2012-06-09 * * * Features / attributes: * - provides strongly typed node classes and lists / dictionaries * - provides easy access to class members / array items / data values * - the parser now properly identifies types. So generating JSON with this framework should work. * - only double quotes (") are used for quoting strings. * - provides "casting" properties to easily convert to / from those types: * int / float / double / bool * - provides a common interface for each node so no explicit casting is required. * - the parser tries to avoid errors, but if malformed JSON is parsed the result is more or less undefined * - It can serialize/deserialize a node tree into/from an experimental compact binary format. It might * be handy if you want to store things in a file and don't want it to be easily modifiable * * * 2012-12-17 Update: * - Added internal JSONLazyCreator class which simplifies the construction of a JSON tree * Now you can simple reference any item that doesn't exist yet and it will return a JSONLazyCreator * The class determines the required type by it's further use, creates the type and removes itself. * - Added binary serialization / deserialization. * - Added support for BZip2 zipped binary format. Requires the SharpZipLib ( http://www.icsharpcode.net/opensource/sharpziplib/ ) * The usage of the SharpZipLib library can be disabled by removing or commenting out the USE_SharpZipLib define at the top * - The serializer uses different types when it comes to store the values. Since my data values * are all of type string, the serializer will "try" which format fits best. The order is: int, float, double, bool, string. * It's not the most efficient way but for a moderate amount of data it should work on all platforms. * * 2017-03-08 Update: * - Optimised parsing by using a StringBuilder for token. This prevents performance issues when large * string data fields are contained in the json data. * - Finally refactored the badly named JSONClass into JSONObject. * - Replaced the old JSONData class by distict typed classes ( JSONString, JSONNumber, JSONBool, JSONNull ) this * allows to propertly convert the node tree back to json without type information loss. The actual value * parsing now happens at parsing time and not when you actually access one of the casting properties. * * The MIT License (MIT) * * Copyright (c) 2012-2017 Markus Göbel * * 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; using System.Collections.Generic; using System.Linq; using System.Text; namespace Touka { public enum JSONNodeType { Array = 1, Object = 2, String = 3, Number = 4, NullValue = 5, Boolean = 6, None = 7, } public abstract partial class JSONNode { #region common interface public virtual JSONNode this[int aIndex] { get { return null; } set { } } public virtual JSONNode this[string aKey] { get { return null; } set { } } public virtual string Value { get { return ""; } set { } } public virtual int Count { get { return 0; } } public virtual bool IsNumber { get { return false; } } public virtual bool IsString { get { return false; } } public virtual bool IsBoolean { get { return false; } } public virtual bool IsNull { get { return false; } } public virtual bool IsArray { get { return false; } } public virtual bool IsObject { get { return false; } } public virtual void Add(string aKey, JSONNode aItem) { } public virtual void Add(JSONNode aItem) { Add("", aItem); } public virtual JSONNode Remove(string aKey) { return null; } public virtual JSONNode Remove(int aIndex) { return null; } public virtual JSONNode Remove(JSONNode aNode) { return aNode; } public virtual IEnumerable Children { get { yield break; } } public IEnumerable DeepChildren { get { foreach (var C in Children) foreach (var D in C.DeepChildren) yield return D; } } public override string ToString() { return "JSONNode"; } public virtual string ToString(string aIndent) { return ToString(aIndent, ""); } internal abstract string ToString(string aIndent, string aPrefix); #endregion common interface #region typecasting properties public abstract JSONNodeType Tag { get; } public virtual double AsDouble { get { double v = 0.0; if (double.TryParse(Value, out v)) return v; return 0.0; } set { Value = value.ToString(); } } public virtual int AsInt { get { return (int)AsDouble; } set { AsDouble = value; } } public virtual float AsFloat { get { return (float)AsDouble; } set { AsDouble = value; } } public virtual bool AsBool { get { bool v = false; if (bool.TryParse(Value, out v)) return v; return !string.IsNullOrEmpty(Value); } set { Value = (value) ? "true" : "false"; } } public virtual JSONArray AsArray { get { return this as JSONArray; } } public virtual JSONObject AsObject { get { return this as JSONObject; } } #endregion typecasting properties #region operators public static implicit operator JSONNode(string s) { return new JSONString(s); } public static implicit operator string(JSONNode d) { return (d == null) ? null : d.Value; } public static implicit operator JSONNode(double n) { return new JSONNumber(n); } public static implicit operator double(JSONNode d) { return (d == null) ? 0 : d.AsDouble; } public static implicit operator JSONNode(float n) { return new JSONNumber(n); } public static implicit operator float(JSONNode d) { return (d == null) ? 0 : d.AsFloat; } public static implicit operator JSONNode(int n) { return new JSONNumber(n); } public static implicit operator int(JSONNode d) { return (d == null) ? 0 : d.AsInt; } public static implicit operator JSONNode(bool b) { return new JSONBool(b); } public static implicit operator bool(JSONNode d) { return (d == null) ? false : d.AsBool; } public static bool operator ==(JSONNode a, object b) { if (ReferenceEquals(a, b)) return true; bool aIsNull = a is JSONNull || ReferenceEquals(a, null) || a is JSONLazyCreator; bool bIsNull = b is JSONNull || ReferenceEquals(b, null) || b is JSONLazyCreator; return (aIsNull && bIsNull); } public static bool operator !=(JSONNode a, object b) { return !(a == b); } public override bool Equals(object obj) { return System.Object.ReferenceEquals(this, obj); } public override int GetHashCode() { return base.GetHashCode(); } #endregion operators internal static StringBuilder m_EscapeBuilder = new StringBuilder(); internal static string Escape(string aText) { m_EscapeBuilder.Length = 0; if (m_EscapeBuilder.Capacity < aText.Length + aText.Length / 10) m_EscapeBuilder.Capacity = aText.Length + aText.Length / 10; foreach (char c in aText) { switch (c) { case '\\': m_EscapeBuilder.Append("\\\\"); break; case '\"': m_EscapeBuilder.Append("\""); break; case '\n': m_EscapeBuilder.Append("\\n"); break; case '\r': m_EscapeBuilder.Append("\\r"); break; case '\t': m_EscapeBuilder.Append("\\t"); break; case '\b': m_EscapeBuilder.Append("\\b"); break; case '\f': m_EscapeBuilder.Append("\\f"); break; default: m_EscapeBuilder.Append(c); break; } } string result = m_EscapeBuilder.ToString(); m_EscapeBuilder.Length = 0; return result; } static void ParseElement(JSONNode ctx, string token, string tokenName, bool quoted) { if (quoted) { ctx.Add(tokenName, token); return; } string tmp = token.ToLower(); if (tmp == "false" || tmp == "true") ctx.Add(tokenName, tmp == "true"); else if (tmp == "null") ctx.Add(tokenName, null); else { double val; if (double.TryParse(token, out val)) ctx.Add(tokenName, val); else ctx.Add(tokenName, token); } } public static JSONNode Parse(string aJSON) { Stack stack = new Stack(); JSONNode ctx = null; int i = 0; StringBuilder Token = new StringBuilder(); string TokenName = ""; bool QuoteMode = false; bool TokenIsQuoted = false; while (i < aJSON.Length) { switch (aJSON[i]) { case '{': if (QuoteMode) { Token.Append(aJSON[i]); break; } stack.Push(new JSONObject()); if (ctx != null) { ctx.Add(TokenName, stack.Peek()); } TokenName = ""; Token.Length = 0; ctx = stack.Peek(); break; case '[': if (QuoteMode) { Token.Append(aJSON[i]); break; } stack.Push(new JSONArray()); if (ctx != null) { ctx.Add(TokenName, stack.Peek()); } TokenName = ""; Token.Length = 0; ctx = stack.Peek(); break; case '}': case ']': if (QuoteMode) { Token.Append(aJSON[i]); break; } if (stack.Count == 0) throw new Exception("JSON Parse: Too many closing brackets"); stack.Pop(); if (Token.Length > 0) { ParseElement(ctx, Token.ToString(), TokenName, TokenIsQuoted); TokenIsQuoted = false; } TokenName = ""; Token.Length = 0; if (stack.Count > 0) ctx = stack.Peek(); break; case ':': if (QuoteMode) { Token.Append(aJSON[i]); break; } TokenName = Token.ToString().Trim(); Token.Length = 0; TokenIsQuoted = false; break; case '"': QuoteMode ^= true; TokenIsQuoted |= QuoteMode; break; case ',': if (QuoteMode) { Token.Append(aJSON[i]); break; } if (Token.Length > 0) { ParseElement(ctx, Token.ToString(), TokenName, TokenIsQuoted); TokenIsQuoted = false; } TokenName = ""; Token.Length = 0; TokenIsQuoted = false; break; case '\r': case '\n': break; case ' ': case '\t': if (QuoteMode) Token.Append(aJSON[i]); break; case '\\': ++i; if (QuoteMode) { char C = aJSON[i]; switch (C) { case 't': Token.Append('\t'); break; case 'r': Token.Append('\r'); break; case 'n': Token.Append('\n'); break; case 'b': Token.Append('\b'); break; case 'f': Token.Append('\f'); break; case 'u': { string s = aJSON.Substring(i + 1, 4); Token.Append((char)int.Parse( s, System.Globalization.NumberStyles.AllowHexSpecifier)); i += 4; break; } default: Token.Append(C); break; } } break; default: Token.Append(aJSON[i]); break; } ++i; } if (QuoteMode) { throw new Exception("JSON Parse: Quotation marks seems to be messed up."); } return ctx; } public virtual void Serialize(System.IO.BinaryWriter aWriter) { } public void SaveToStream(System.IO.Stream aData) { var W = new System.IO.BinaryWriter(aData); Serialize(W); } #if USE_SharpZipLib public void SaveToCompressedStream(System.IO.Stream aData) { using (var gzipOut = new ICSharpCode.SharpZipLib.BZip2.BZip2OutputStream(aData)) { gzipOut.IsStreamOwner = false; SaveToStream(gzipOut); gzipOut.Close(); } } public void SaveToCompressedFile(string aFileName) { #if USE_FileIO System.IO.Directory.CreateDirectory((new System.IO.FileInfo(aFileName)).Directory.FullName); using(var F = System.IO.File.OpenWrite(aFileName)) { SaveToCompressedStream(F); } #else throw new Exception("Can't use File IO stuff in the webplayer"); #endif } public string SaveToCompressedBase64() { using (var stream = new System.IO.MemoryStream()) { SaveToCompressedStream(stream); stream.Position = 0; return System.Convert.ToBase64String(stream.ToArray()); } } #else public void SaveToCompressedStream(System.IO.Stream aData) { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } public void SaveToCompressedFile(string aFileName) { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } public string SaveToCompressedBase64() { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } #endif public void SaveToFile(string aFileName) { #if USE_FileIO System.IO.Directory.CreateDirectory((new System.IO.FileInfo(aFileName)).Directory.FullName); using (var F = System.IO.File.OpenWrite(aFileName)) { SaveToStream(F); } #else throw new Exception ("Can't use File IO stuff in the webplayer"); #endif } public string SaveToBase64() { using (var stream = new System.IO.MemoryStream()) { SaveToStream(stream); stream.Position = 0; return System.Convert.ToBase64String(stream.ToArray()); } } public static JSONNode Deserialize(System.IO.BinaryReader aReader) { JSONNodeType type = (JSONNodeType)aReader.ReadByte(); switch (type) { case JSONNodeType.Array: { int count = aReader.ReadInt32(); JSONArray tmp = new JSONArray(); for (int i = 0; i < count; i++) tmp.Add(Deserialize(aReader)); return tmp; } case JSONNodeType.Object: { int count = aReader.ReadInt32(); JSONObject tmp = new JSONObject(); for (int i = 0; i < count; i++) { string key = aReader.ReadString(); var val = Deserialize(aReader); tmp.Add(key, val); } return tmp; } case JSONNodeType.String: { return new JSONString(aReader.ReadString()); } case JSONNodeType.Number: { return new JSONNumber(aReader.ReadDouble()); } case JSONNodeType.Boolean: { return new JSONBool(aReader.ReadBoolean()); } case JSONNodeType.NullValue: { return new JSONNull(); } default: { throw new Exception("Error deserializing JSON. Unknown tag: " + type); } } } #if USE_SharpZipLib public static JSONNode LoadFromCompressedStream(System.IO.Stream aData) { var zin = new ICSharpCode.SharpZipLib.BZip2.BZip2InputStream(aData); return LoadFromStream(zin); } public static JSONNode LoadFromCompressedFile(string aFileName) { #if USE_FileIO using(var F = System.IO.File.OpenRead(aFileName)) { return LoadFromCompressedStream(F); } #else throw new Exception("Can't use File IO stuff in the webplayer"); #endif } public static JSONNode LoadFromCompressedBase64(string aBase64) { var tmp = System.Convert.FromBase64String(aBase64); var stream = new System.IO.MemoryStream(tmp); stream.Position = 0; return LoadFromCompressedStream(stream); } #else public static JSONNode LoadFromCompressedFile(string aFileName) { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } public static JSONNode LoadFromCompressedStream(System.IO.Stream aData) { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } public static JSONNode LoadFromCompressedBase64(string aBase64) { throw new Exception("Can't use compressed functions. You need include the SharpZipLib and uncomment the define at the top of SimpleJSON"); } #endif public static JSONNode LoadFromStream(System.IO.Stream aData) { using (var R = new System.IO.BinaryReader(aData)) { return Deserialize(R); } } public static JSONNode LoadFromFile(string aFileName) { #if USE_FileIO using (var F = System.IO.File.OpenRead(aFileName)) { return LoadFromStream(F); } #else throw new Exception ("Can't use File IO stuff in the webplayer"); #endif } public static JSONNode LoadFromBase64(string aBase64) { var tmp = System.Convert.FromBase64String(aBase64); var stream = new System.IO.MemoryStream(tmp); stream.Position = 0; return LoadFromStream(stream); } } // End of JSONNode public class JSONArray : JSONNode, IEnumerable { private List m_List = new List(); public override JSONNodeType Tag { get { return JSONNodeType.Array; } } public override bool IsArray { get { return true; } } public override JSONNode this[int aIndex] { get { if (aIndex < 0 || aIndex >= m_List.Count) return new JSONLazyCreator(this); return m_List[aIndex]; } set { if (value == null) value = new JSONNull(); if (aIndex < 0 || aIndex >= m_List.Count) m_List.Add(value); else m_List[aIndex] = value; } } public override JSONNode this[string aKey] { get { return new JSONLazyCreator(this); } set { if (value == null) value = new JSONNull(); m_List.Add(value); } } public override int Count { get { return m_List.Count; } } public override void Add(string aKey, JSONNode aItem) { if (aItem == null) aItem = new JSONNull(); m_List.Add(aItem); } public override JSONNode Remove(int aIndex) { if (aIndex < 0 || aIndex >= m_List.Count) return null; JSONNode tmp = m_List[aIndex]; m_List.RemoveAt(aIndex); return tmp; } public override JSONNode Remove(JSONNode aNode) { m_List.Remove(aNode); return aNode; } public override IEnumerable Children { get { foreach (JSONNode N in m_List) yield return N; } } public IEnumerator GetEnumerator() { foreach (JSONNode N in m_List) yield return N; } public override string ToString() { string result = "[ "; foreach (JSONNode N in m_List) { if (result.Length > 2) result += ", "; result += N.ToString(); } result += " ]"; return result; } internal override string ToString(string aIndent, string aPrefix) { string result = "[ "; foreach (JSONNode N in m_List) { if (result.Length > 3) result += ", "; result += "\n"+aPrefix + aIndent + N.ToString(aIndent, aPrefix + aIndent); } result += "\n" + aPrefix + "]"; return result; } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.Array); aWriter.Write(m_List.Count); for (int i = 0; i < m_List.Count; i++) { m_List[i].Serialize(aWriter); } } } // End of JSONArray public class JSONObject : JSONNode, IEnumerable { private Dictionary m_Dict = new Dictionary(); public override JSONNodeType Tag { get { return JSONNodeType.Object; } } public override bool IsObject { get { return true; } } public override JSONNode this[string aKey] { get { if (m_Dict.ContainsKey(aKey)) return m_Dict[aKey]; else return new JSONLazyCreator(this, aKey); } set { if (value == null) value = new JSONNull(); if (m_Dict.ContainsKey(aKey)) m_Dict[aKey] = value; else m_Dict.Add(aKey, value); } } public override JSONNode this[int aIndex] { get { if (aIndex < 0 || aIndex >= m_Dict.Count) return null; return m_Dict.ElementAt(aIndex).Value; } set { if (value == null) value = new JSONNull(); if (aIndex < 0 || aIndex >= m_Dict.Count) return; string key = m_Dict.ElementAt(aIndex).Key; m_Dict[key] = value; } } public override int Count { get { return m_Dict.Count; } } public override void Add(string aKey, JSONNode aItem) { if (aItem == null) aItem = new JSONNull(); if (!string.IsNullOrEmpty(aKey)) { if (m_Dict.ContainsKey(aKey)) m_Dict[aKey] = aItem; else m_Dict.Add(aKey, aItem); } else m_Dict.Add(Guid.NewGuid().ToString(), aItem); } public override JSONNode Remove(string aKey) { if (!m_Dict.ContainsKey(aKey)) return null; JSONNode tmp = m_Dict[aKey]; m_Dict.Remove(aKey); return tmp; } public override JSONNode Remove(int aIndex) { if (aIndex < 0 || aIndex >= m_Dict.Count) return null; var item = m_Dict.ElementAt(aIndex); m_Dict.Remove(item.Key); return item.Value; } public override JSONNode Remove(JSONNode aNode) { try { var item = m_Dict.Where(k => k.Value == aNode).First(); m_Dict.Remove(item.Key); return aNode; } catch { return null; } } public override IEnumerable Children { get { foreach (KeyValuePair N in m_Dict) yield return N.Value; } } public IEnumerator GetEnumerator() { foreach (KeyValuePair N in m_Dict) yield return N; } public override string ToString() { string result = "{"; foreach (KeyValuePair N in m_Dict) { if (result.Length > 2) result += ", "; result += "\"" + Escape(N.Key) + "\":" + N.Value.ToString(); } result += "}"; return result; } internal override string ToString(string aIndent, string aPrefix) { string result = "{ "; foreach (KeyValuePair N in m_Dict) { if (result.Length > 3) result += ", "; result += "\n" + aPrefix + aIndent + "\"" + Escape(N.Key) + "\" : "; result += N.Value.ToString(aIndent, aPrefix + aIndent); } result += "\n" + aPrefix + "}"; return result; } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.Object); aWriter.Write(m_Dict.Count); foreach (string K in m_Dict.Keys) { aWriter.Write(K); m_Dict[K].Serialize(aWriter); } } } // End of JSONObject public class JSONString : JSONNode { private string m_Data; public override JSONNodeType Tag { get { return JSONNodeType.String; } } public override bool IsString { get { return true; } } public override string Value { get { return m_Data; } set { m_Data = value; } } public JSONString(string aData) { m_Data = aData; } public override string ToString() { return "\"" + Escape(m_Data) + "\""; } internal override string ToString(string aIndent, string aPrefix) { return "\"" + Escape(m_Data) + "\""; } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.String); aWriter.Write(m_Data); } } // End of JSONString public class JSONNumber : JSONNode { private double m_Data; public override JSONNodeType Tag { get { return JSONNodeType.Number; } } public override bool IsNumber { get { return true; } } public override string Value { get { return m_Data.ToString(); } set { double v; if (double.TryParse(value, out v)) m_Data = v; } } public override double AsDouble { get { return m_Data; } set { m_Data = value; } } public JSONNumber(double aData) { m_Data = aData; } public JSONNumber(string aData) { Value = aData; } public override string ToString() { return m_Data.ToString(); } internal override string ToString(string aIndent, string aPrefix) { return m_Data.ToString(); } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.Number); aWriter.Write(m_Data); } } // End of JSONNumber public class JSONBool : JSONNode { private bool m_Data; public override JSONNodeType Tag { get { return JSONNodeType.Boolean; } } public override bool IsBoolean { get { return true; } } public override string Value { get { return m_Data.ToString(); } set { bool v; if (bool.TryParse(value, out v)) m_Data = v; } } public override bool AsBool { get { return m_Data; } set { m_Data = value; } } public JSONBool(bool aData) { m_Data = aData; } public JSONBool(string aData) { Value = aData; } public override string ToString() { return (m_Data) ? "true" : "false"; } internal override string ToString(string aIndent, string aPrefix) { return (m_Data) ? "true" : "false"; } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.Boolean); aWriter.Write(m_Data); } } // End of JSONBool public class JSONNull : JSONNode { public override JSONNodeType Tag { get { return JSONNodeType.NullValue; } } public override bool IsNull { get { return true; } } public override string Value { get { return "null"; } set { } } public override bool AsBool { get { return false; } set { } } public override string ToString() { return "null"; } internal override string ToString(string aIndent, string aPrefix) { return "null"; } public override bool Equals(object obj) { if (object.ReferenceEquals(this, obj)) return true; return (obj is JSONNull); } public override int GetHashCode() { return base.GetHashCode(); } public override void Serialize(System.IO.BinaryWriter aWriter) { aWriter.Write((byte)JSONNodeType.NullValue); } } // End of JSONNull internal class JSONLazyCreator : JSONNode { private JSONNode m_Node = null; private string m_Key = null; public override JSONNodeType Tag { get { return JSONNodeType.None; } } public JSONLazyCreator(JSONNode aNode) { m_Node = aNode; m_Key = null; } public JSONLazyCreator(JSONNode aNode, string aKey) { m_Node = aNode; m_Key = aKey; } private void Set(JSONNode aVal) { if (m_Key == null) { m_Node.Add(aVal); } else { m_Node.Add(m_Key, aVal); } m_Node = null; // Be GC friendly. } public override JSONNode this[int aIndex] { get { return new JSONLazyCreator(this); } set { var tmp = new JSONArray(); tmp.Add(value); Set(tmp); } } public override JSONNode this[string aKey] { get { return new JSONLazyCreator(this, aKey); } set { var tmp = new JSONObject(); tmp.Add(aKey, value); Set(tmp); } } public override void Add(JSONNode aItem) { var tmp = new JSONArray(); tmp.Add(aItem); Set(tmp); } public override void Add(string aKey, JSONNode aItem) { var tmp = new JSONObject(); tmp.Add(aKey, aItem); Set(tmp); } public static bool operator ==(JSONLazyCreator a, object b) { if (b == null) return true; return System.Object.ReferenceEquals(a, b); } public static bool operator !=(JSONLazyCreator a, object b) { return !(a == b); } public override bool Equals(object obj) { if (obj == null) return true; return System.Object.ReferenceEquals(this, obj); } public override int GetHashCode() { return base.GetHashCode(); } public override string ToString() { return ""; } internal override string ToString(string aIndent, string aPrefix) { return ""; } public override int AsInt { get { JSONNumber tmp = new JSONNumber(0); Set(tmp); return 0; } set { JSONNumber tmp = new JSONNumber(value); Set(tmp); } } public override float AsFloat { get { JSONNumber tmp = new JSONNumber(0.0f); Set(tmp); return 0.0f; } set { JSONNumber tmp = new JSONNumber(value); Set(tmp); } } public override double AsDouble { get { JSONNumber tmp = new JSONNumber(0.0); Set(tmp); return 0.0; } set { JSONNumber tmp = new JSONNumber(value); Set(tmp); } } public override bool AsBool { get { JSONBool tmp = new JSONBool(false); Set(tmp); return false; } set { JSONBool tmp = new JSONBool(value); Set(tmp); } } public override JSONArray AsArray { get { JSONArray tmp = new JSONArray(); Set(tmp); return tmp; } } public override JSONObject AsObject { get { JSONObject tmp = new JSONObject(); Set(tmp); return tmp; } } } // End of JSONLazyCreator public static class JSON { public static JSONNode Parse(string aJSON) { return JSONNode.Parse(aJSON); } } }