Lidarr/Exceptron.Client/fastJSON/JSON.cs

834 lines
28 KiB
C#

//http://fastjson.codeplex.com/
//http://fastjson.codeplex.com/license
using System;
using System.Collections;
using System.Collections.Generic;
using System.Data;
using System.Globalization;
using System.IO;
using System.Reflection;
using System.Reflection.Emit;
using System.Xml.Serialization;
namespace Exceptron.Client.fastJSON
{
internal class JSON
{
public readonly static JSON Instance = new JSON();
private JSON()
{
UseSerializerExtension = false;
SerializeNullValues = false;
UseOptimizedDatasetSchema = false;
UsingGlobalTypes = false;
}
public bool UseOptimizedDatasetSchema = true;
public bool UseFastGuid = true;
public bool UseSerializerExtension = true;
public bool IndentOutput = false;
public bool SerializeNullValues = true;
public bool UseUTCDateTime = false;
public bool ShowReadOnlyProperties = false;
public bool UsingGlobalTypes = true;
public string ToJSON(object obj)
{
return ToJSON(obj, UseSerializerExtension, UseFastGuid, UseOptimizedDatasetSchema, SerializeNullValues);
}
public string ToJSON(object obj,
bool enableSerializerExtensions,
bool enableFastGuid,
bool enableOptimizedDatasetSchema,
bool serializeNullValues)
{
return new JSONSerializer(enableOptimizedDatasetSchema, enableFastGuid, enableSerializerExtensions, serializeNullValues, IndentOutput).ConvertToJSON(obj);
}
public T ToObject<T>(string json)
{
return (T)ToObject(json, typeof(T));
}
public object ToObject(string json, Type type)
{
var ht = new JsonParser(json).Decode() as Dictionary<string, object>;
if (ht == null) return null;
return ParseDictionary(ht, null, type);
}
#if CUSTOMTYPE
internal SafeDictionary<Type, Serialize> _customSerializer = new SafeDictionary<Type, Serialize>();
internal SafeDictionary<Type, Deserialize> _customDeserializer = new SafeDictionary<Type, Deserialize>();
public void RegisterCustomType(Type type, Serialize serializer, Deserialize deserializer)
{
if (type != null && serializer != null && deserializer != null)
{
_customSerializer.Add(type, serializer);
_customDeserializer.Add(type, deserializer);
// reset property cache
_propertycache = new SafeDictionary<string, SafeDictionary<string, myPropInfo>>();
}
}
internal bool IsTypeRegistered(Type t)
{
Serialize s;
return _customSerializer.TryGetValue(t, out s);
}
#endif
#region [ PROPERTY GET SET CACHE ]
readonly SafeDictionary<Type, string> _tyname = new SafeDictionary<Type, string>();
internal string GetTypeAssemblyName(Type t)
{
string val = "";
if (_tyname.TryGetValue(t, out val))
return val;
else
{
string s = t.AssemblyQualifiedName;
_tyname.Add(t, s);
return s;
}
}
readonly SafeDictionary<string, Type> _typecache = new SafeDictionary<string, Type>();
private Type GetTypeFromCache(string typename)
{
Type val = null;
if (_typecache.TryGetValue(typename, out val))
return val;
else
{
Type t = Type.GetType(typename);
_typecache.Add(typename, t);
return t;
}
}
readonly SafeDictionary<Type, CreateObject> _constrcache = new SafeDictionary<Type, CreateObject>();
private delegate object CreateObject();
private object FastCreateInstance(Type objtype)
{
try
{
CreateObject c = null;
if (_constrcache.TryGetValue(objtype, out c))
{
return c();
}
else
{
DynamicMethod dynMethod = new DynamicMethod("_", objtype, null, true);
ILGenerator ilGen = dynMethod.GetILGenerator();
ilGen.Emit(OpCodes.Newobj, objtype.GetConstructor(Type.EmptyTypes));
ilGen.Emit(OpCodes.Ret);
c = (CreateObject)dynMethod.CreateDelegate(typeof(CreateObject));
_constrcache.Add(objtype, c);
return c();
}
}
catch (Exception exc)
{
throw new Exception(string.Format("Failed to fast create instance for type '{0}' from assemebly '{1}'",
objtype.FullName, objtype.AssemblyQualifiedName), exc);
}
}
private struct myPropInfo
{
public bool filled;
public Type pt;
public Type bt;
public Type changeType;
public bool isDictionary;
public bool isValueType;
public bool isGenericType;
public bool isArray;
public bool isByteArray;
public bool isGuid;
#if !SILVERLIGHT
public bool isDataSet;
public bool isDataTable;
public bool isHashtable;
#endif
public GenericSetter setter;
public bool isEnum;
public bool isDateTime;
public Type[] GenericTypes;
public bool isInt;
public bool isLong;
public bool isString;
public bool isBool;
public bool isClass;
public GenericGetter getter;
public bool isStringDictionary;
public string Name;
#if CUSTOMTYPE
public bool isCustomType;
#endif
public bool CanWrite;
}
readonly SafeDictionary<string, SafeDictionary<string, myPropInfo>> _propertycache = new SafeDictionary<string, SafeDictionary<string, myPropInfo>>();
private SafeDictionary<string, myPropInfo> Getproperties(Type type, string typename)
{
SafeDictionary<string, myPropInfo> sd = null;
if (_propertycache.TryGetValue(typename, out sd))
{
return sd;
}
else
{
sd = new SafeDictionary<string, myPropInfo>();
var pr = type.GetProperties(BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance);
foreach (var p in pr)
{
myPropInfo d = CreateMyProp(p.PropertyType, p.Name);
d.CanWrite = p.CanWrite;
d.setter = CreateSetMethod(p);
d.getter = CreateGetMethod(p);
sd.Add(p.Name, d);
}
_propertycache.Add(typename, sd);
return sd;
}
}
private myPropInfo CreateMyProp(Type t, string name)
{
myPropInfo d = new myPropInfo();
d.filled = true;
d.CanWrite = true;
d.pt = t;
d.Name = name;
d.isDictionary = t.Name.Contains("Dictionary");
if (d.isDictionary)
d.GenericTypes = t.GetGenericArguments();
d.isValueType = t.IsValueType;
d.isGenericType = t.IsGenericType;
d.isArray = t.IsArray;
if (d.isArray)
d.bt = t.GetElementType();
if (d.isGenericType)
d.bt = t.GetGenericArguments()[0];
d.isByteArray = t == typeof(byte[]);
d.isGuid = (t == typeof(Guid) || t == typeof(Guid?));
#if !SILVERLIGHT
d.isHashtable = t == typeof(Hashtable);
d.isDataSet = t == typeof(DataSet);
d.isDataTable = t == typeof(DataTable);
#endif
d.changeType = GetChangeType(t);
d.isEnum = t.IsEnum;
d.isDateTime = t == typeof(DateTime) || t == typeof(DateTime?);
d.isInt = t == typeof(int) || t == typeof(int?);
d.isLong = t == typeof(long) || t == typeof(long?);
d.isString = t == typeof(string);
d.isBool = t == typeof(bool) || t == typeof(bool?);
d.isClass = t.IsClass;
if (d.isDictionary && d.GenericTypes.Length > 0 && d.GenericTypes[0] == typeof(string))
d.isStringDictionary = true;
#if CUSTOMTYPE
if (IsTypeRegistered(t))
d.isCustomType = true;
#endif
return d;
}
private delegate void GenericSetter(object target, object value);
private static GenericSetter CreateSetMethod(PropertyInfo propertyInfo)
{
MethodInfo setMethod = propertyInfo.GetSetMethod(nonPublic: true);
if (setMethod == null)
return null;
var arguments = new Type[2];
arguments[0] = arguments[1] = typeof(object);
DynamicMethod setter = new DynamicMethod("_", typeof(void), arguments, true);
ILGenerator il = setter.GetILGenerator();
il.Emit(OpCodes.Ldarg_0);
il.Emit(OpCodes.Castclass, propertyInfo.DeclaringType);
il.Emit(OpCodes.Ldarg_1);
if (propertyInfo.PropertyType.IsClass)
il.Emit(OpCodes.Castclass, propertyInfo.PropertyType);
else
il.Emit(OpCodes.Unbox_Any, propertyInfo.PropertyType);
il.EmitCall(OpCodes.Callvirt, setMethod, null);
il.Emit(OpCodes.Ret);
return (GenericSetter)setter.CreateDelegate(typeof(GenericSetter));
}
internal delegate object GenericGetter(object obj);
private GenericGetter CreateGetMethod(PropertyInfo propertyInfo)
{
MethodInfo getMethod = propertyInfo.GetGetMethod();
if (getMethod == null)
return null;
var arguments = new Type[1];
arguments[0] = typeof(object);
DynamicMethod getter = new DynamicMethod("_", typeof(object), arguments, true);
ILGenerator il = getter.GetILGenerator();
il.Emit(OpCodes.Ldarg_0);
il.Emit(OpCodes.Castclass, propertyInfo.DeclaringType);
il.EmitCall(OpCodes.Callvirt, getMethod, null);
if (!propertyInfo.PropertyType.IsClass)
il.Emit(OpCodes.Box, propertyInfo.PropertyType);
il.Emit(OpCodes.Ret);
return (GenericGetter)getter.CreateDelegate(typeof(GenericGetter));
}
readonly SafeDictionary<Type, List<Getters>> _getterscache = new SafeDictionary<Type, List<Getters>>();
internal List<Getters> GetGetters(Type type)
{
List<Getters> val = null;
if (_getterscache.TryGetValue(type, out val))
return val;
var props = type.GetProperties(BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance);
var getters = new List<Getters>();
foreach (var p in props)
{
if (!p.CanWrite && ShowReadOnlyProperties == false) continue;
var att = p.GetCustomAttributes(typeof(XmlIgnoreAttribute), false);
if (att != null && att.Length > 0)
continue;
GenericGetter g = CreateGetMethod(p);
if (g != null)
{
Getters gg = new Getters();
gg.Name = p.Name;
gg.Getter = g;
gg.propertyType = p.PropertyType;
getters.Add(gg);
}
}
_getterscache.Add(type, getters);
return getters;
}
private object ChangeType(object value, Type conversionType)
{
if (conversionType == typeof(int))
return (int)CreateLong((string)value);
else if (conversionType == typeof(long))
return CreateLong((string)value);
else if (conversionType == typeof(string))
return value;
else if (conversionType == typeof(Guid))
return CreateGuid((string)value);
else if (conversionType.IsEnum)
return CreateEnum(conversionType, (string)value);
return Convert.ChangeType(value, conversionType, CultureInfo.InvariantCulture);
}
#endregion
private object ParseDictionary(Dictionary<string, object> d, Dictionary<string, object> globaltypes, Type type)
{
object tn = "";
if (d.TryGetValue("$types", out tn))
{
UsingGlobalTypes = true;
globaltypes = new Dictionary<string, object>();
foreach (var kv in (Dictionary<string, object>)tn)
{
globaltypes.Add((string)kv.Value, kv.Key);
}
}
bool found = d.TryGetValue("$type", out tn);
#if !SILVERLIGHT
if (found == false && type == typeof(Object))
{
return CreateDataset(d, globaltypes);
}
#endif
if (found)
{
if (UsingGlobalTypes)
{
object tname = "";
if (globaltypes.TryGetValue((string)tn, out tname))
tn = tname;
}
type = GetTypeFromCache((string)tn);
}
if (type == null)
throw new Exception("Cannot determine type");
string typename = type.FullName;
object o = FastCreateInstance(type);
var props = Getproperties(type, typename);
foreach (var name in d.Keys)
{
if (name == "$map")
{
ProcessMap(o, props, (Dictionary<string, object>)d[name]);
continue;
}
myPropInfo pi;
if (props.TryGetValue(name, out pi) == false)
continue;
if (pi.filled)
{
object v = d[name];
if (v != null)
{
object oset = null;
if (pi.isInt)
oset = (int)CreateLong((string)v);
#if CUSTOMTYPE
else if (pi.isCustomType)
oset = CreateCustom((string)v, pi.pt);
#endif
else if (pi.isLong)
oset = CreateLong((string)v);
else if (pi.isString)
oset = v;
else if (pi.isBool)
oset = (bool)v;
else if (pi.isGenericType && pi.isValueType == false && pi.isDictionary == false)
#if SILVERLIGHT
oset = CreateGenericList((List<object>)v, pi.pt, pi.bt, globaltypes);
#else
oset = CreateGenericList((ArrayList)v, pi.pt, pi.bt, globaltypes);
#endif
else if (pi.isByteArray)
oset = Convert.FromBase64String((string)v);
else if (pi.isArray && pi.isValueType == false)
#if SILVERLIGHT
oset = CreateArray((List<object>)v, pi.pt, pi.bt, globaltypes);
#else
oset = CreateArray((ArrayList)v, pi.pt, pi.bt, globaltypes);
#endif
else if (pi.isGuid)
oset = CreateGuid((string)v);
#if !SILVERLIGHT
else if (pi.isDataSet)
oset = CreateDataset((Dictionary<string, object>)v, globaltypes);
else if (pi.isDataTable)
oset = CreateDataTable((Dictionary<string, object>)v, globaltypes);
#endif
else if (pi.isStringDictionary)
oset = CreateStringKeyDictionary((Dictionary<string, object>)v, pi.pt, pi.GenericTypes, globaltypes);
#if !SILVERLIGHT
else if (pi.isDictionary || pi.isHashtable)
oset = CreateDictionary((ArrayList)v, pi.pt, pi.GenericTypes, globaltypes);
#else
else if (pi.isDictionary)
oset = CreateDictionary((List<object>)v, pi.pt, pi.GenericTypes, globaltypes);
#endif
else if (pi.isEnum)
oset = CreateEnum(pi.pt, (string)v);
else if (pi.isDateTime)
oset = CreateDateTime((string)v);
else if (pi.isClass && v is Dictionary<string, object>)
oset = ParseDictionary((Dictionary<string, object>)v, globaltypes, pi.pt);
else if (pi.isValueType)
oset = ChangeType(v, pi.changeType);
#if SILVERLIGHT
else if (v is List<object>)
oset = CreateArray((List<object>)v, pi.pt, typeof(object), globaltypes);
#else
else if (v is ArrayList)
oset = CreateArray((ArrayList)v, pi.pt, typeof(object), globaltypes);
#endif
else
oset = v;
if (pi.CanWrite)
pi.setter(o, oset);
}
}
}
return o;
}
#if CUSTOMTYPE
private object CreateCustom(string v, Type type)
{
Deserialize d;
_customDeserializer.TryGetValue(type, out d);
return d(v);
}
#endif
private void ProcessMap(object obj, SafeDictionary<string, myPropInfo> props, Dictionary<string, object> dic)
{
foreach (var kv in dic)
{
myPropInfo p = props[kv.Key];
object o = p.getter(obj);
Type t = Type.GetType((string)kv.Value);
if (t == typeof(Guid))
p.setter(obj, CreateGuid((string)o));
}
}
private long CreateLong(string s)
{
long num = 0;
bool neg = false;
foreach (var cc in s)
{
if (cc == '-')
neg = true;
else if (cc == '+')
neg = false;
else
{
num *= 10;
num += (cc - '0');
}
}
return neg ? -num : num;
}
private object CreateEnum(Type pt, string v)
{
// TODO : optimize create enum
#if !SILVERLIGHT
return Enum.Parse(pt, v);
#else
return Enum.Parse(pt, v, true);
#endif
}
private Guid CreateGuid(string s)
{
if (s.Length > 30)
return new Guid(s);
else
return new Guid(Convert.FromBase64String(s));
}
private DateTime CreateDateTime(string value)
{
bool utc = false;
// 0123456789012345678
// datetime format = yyyy-MM-dd HH:mm:ss
int year = (int)CreateLong(value.Substring(0, 4));
int month = (int)CreateLong(value.Substring(5, 2));
int day = (int)CreateLong(value.Substring(8, 2));
int hour = (int)CreateLong(value.Substring(11, 2));
int min = (int)CreateLong(value.Substring(14, 2));
int sec = (int)CreateLong(value.Substring(17, 2));
if (value.EndsWith("Z"))
utc = true;
if (UseUTCDateTime == false && utc == false)
return new DateTime(year, month, day, hour, min, sec);
else
return new DateTime(year, month, day, hour, min, sec, DateTimeKind.Utc).ToLocalTime();
}
#if SILVERLIGHT
private object CreateArray(List<object> data, Type pt, Type bt, Dictionary<string, object> globalTypes)
{
Array col = Array.CreateInstance(bt, data.Count);
// create an array of objects
for (int i = 0; i < data.Count; i++)// each (object ob in data)
{
object ob = data[i];
if (ob is IDictionary)
col.SetValue(ParseDictionary((Dictionary<string, object>)ob, globalTypes, bt), i);
else
col.SetValue(ChangeType(ob, bt), i);
}
return col;
}
#else
private object CreateArray(ArrayList data, Type pt, Type bt, Dictionary<string, object> globalTypes)
{
ArrayList col = new ArrayList();
// create an array of objects
foreach (var ob in data)
{
if (ob is IDictionary)
col.Add(ParseDictionary((Dictionary<string, object>)ob, globalTypes, bt));
else
col.Add(ChangeType(ob, bt));
}
return col.ToArray(bt);
}
#endif
#if SILVERLIGHT
private object CreateGenericList(List<object> data, Type pt, Type bt, Dictionary<string, object> globalTypes)
#else
private object CreateGenericList(ArrayList data, Type pt, Type bt, Dictionary<string, object> globalTypes)
#endif
{
IList col = (IList)FastCreateInstance(pt);
// create an array of objects
foreach (var ob in data)
{
if (ob is IDictionary)
col.Add(ParseDictionary((Dictionary<string, object>)ob, globalTypes, bt));
#if SILVERLIGHT
else if (ob is List<object>)
col.Add(((List<object>)ob).ToArray());
#else
else if (ob is ArrayList)
col.Add(((ArrayList)ob).ToArray());
#endif
else
col.Add(ChangeType(ob, bt));
}
return col;
}
private object CreateStringKeyDictionary(Dictionary<string, object> reader, Type pt, Type[] types, Dictionary<string, object> globalTypes)
{
var col = (IDictionary)FastCreateInstance(pt);
Type t1 = null;
Type t2 = null;
if (types != null)
{
t1 = types[0];
t2 = types[1];
}
foreach (var values in reader)
{
var key = values.Key;//ChangeType(values.Key, t1);
object val = null;
if (values.Value is Dictionary<string, object>)
val = ParseDictionary((Dictionary<string, object>)values.Value, globalTypes, t2);
else
val = ChangeType(values.Value, t2);
col.Add(key, val);
}
return col;
}
#if SILVERLIGHT
private object CreateDictionary(List<object> reader, Type pt, Type[] types, Dictionary<string, object> globalTypes)
#else
private object CreateDictionary(ArrayList reader, Type pt, Type[] types, Dictionary<string, object> globalTypes)
#endif
{
IDictionary col = (IDictionary)FastCreateInstance(pt);
Type t1 = null;
Type t2 = null;
if (types != null)
{
t1 = types[0];
t2 = types[1];
}
foreach (Dictionary<string, object> values in reader)
{
object key = values["k"];
object val = values["v"];
if (key is Dictionary<string, object>)
key = ParseDictionary((Dictionary<string, object>)key, globalTypes, t1);
else
key = ChangeType(key, t1);
if (val is Dictionary<string, object>)
val = ParseDictionary((Dictionary<string, object>)val, globalTypes, t2);
else
val = ChangeType(val, t2);
col.Add(key, val);
}
return col;
}
private Type GetChangeType(Type conversionType)
{
if (conversionType.IsGenericType && conversionType.GetGenericTypeDefinition().Equals(typeof(Nullable<>)))
return conversionType.GetGenericArguments()[0];
return conversionType;
}
#if !SILVERLIGHT
private DataSet CreateDataset(Dictionary<string, object> reader, Dictionary<string, object> globalTypes)
{
DataSet ds = new DataSet();
ds.EnforceConstraints = false;
ds.BeginInit();
// read dataset schema here
ReadSchema(reader, ds, globalTypes);
foreach (var pair in reader)
{
if (pair.Key == "$type" || pair.Key == "$schema") continue;
ArrayList rows = (ArrayList)pair.Value;
if (rows == null) continue;
DataTable dt = ds.Tables[pair.Key];
ReadDataTable(rows, dt);
}
ds.EndInit();
return ds;
}
private void ReadSchema(Dictionary<string, object> reader, DataSet ds, Dictionary<string, object> globalTypes)
{
var schema = reader["$schema"];
if (schema is string)
{
TextReader tr = new StringReader((string)schema);
ds.ReadXmlSchema(tr);
}
else
{
DatasetSchema ms = (DatasetSchema)ParseDictionary((Dictionary<string, object>)schema, globalTypes, typeof(DatasetSchema));
ds.DataSetName = ms.Name;
for (int i = 0; i < ms.Info.Count; i += 3)
{
if (ds.Tables.Contains(ms.Info[i]) == false)
ds.Tables.Add(ms.Info[i]);
ds.Tables[ms.Info[i]].Columns.Add(ms.Info[i + 1], Type.GetType(ms.Info[i + 2]));
}
}
}
private void ReadDataTable(ArrayList rows, DataTable dt)
{
dt.BeginInit();
dt.BeginLoadData();
var guidcols = new List<int>();
var datecol = new List<int>();
foreach (DataColumn c in dt.Columns)
{
if (c.DataType == typeof(Guid) || c.DataType == typeof(Guid?))
guidcols.Add(c.Ordinal);
if (UseUTCDateTime && (c.DataType == typeof(DateTime) || c.DataType == typeof(DateTime?)))
datecol.Add(c.Ordinal);
}
foreach (ArrayList row in rows)
{
var v = new object[row.Count];
row.CopyTo(v, 0);
foreach (var i in guidcols)
{
string s = (string)v[i];
if (s != null && s.Length < 36)
v[i] = new Guid(Convert.FromBase64String(s));
}
if (UseUTCDateTime)
{
foreach (var i in datecol)
{
string s = (string)v[i];
if (s != null)
v[i] = CreateDateTime(s);
}
}
dt.Rows.Add(v);
}
dt.EndLoadData();
dt.EndInit();
}
DataTable CreateDataTable(Dictionary<string, object> reader, Dictionary<string, object> globalTypes)
{
var dt = new DataTable();
// read dataset schema here
var schema = reader["$schema"];
if (schema is string)
{
TextReader tr = new StringReader((string)schema);
dt.ReadXmlSchema(tr);
}
else
{
var ms = (DatasetSchema)ParseDictionary((Dictionary<string, object>)schema, globalTypes, typeof(DatasetSchema));
dt.TableName = ms.Info[0];
for (int i = 0; i < ms.Info.Count; i += 3)
{
dt.Columns.Add(ms.Info[i + 1], Type.GetType(ms.Info[i + 2]));
}
}
foreach (var pair in reader)
{
if (pair.Key == "$type" || pair.Key == "$schema")
continue;
var rows = (ArrayList)pair.Value;
if (rows == null)
continue;
if (!dt.TableName.Equals(pair.Key, StringComparison.InvariantCultureIgnoreCase))
continue;
ReadDataTable(rows, dt);
}
return dt;
}
#endif
}
}