static NameValueCollection CreateNameValueCollection(JsonDict d) { NameValueCollection nv = new NameValueCollection(); foreach (var o in d) { var k = o.Key; var ov = o.Value; if (ov == null) { nv.Add(k, null); continue; } var s = ov as string; if (s != null) { nv.Add(k, s); continue; } var sa = ov as IList; if (sa != null) { foreach (string item in sa) { nv.Add(k, item); } continue; } nv.Add(k, ov.ToString()); } return(nv); }
JsonDict ParseObject() { var table = new JsonDict(); ConsumeToken(); // { while (true) { switch (LookAhead()) { case Token.Comma: ConsumeToken(); break; case Token.Curly_Close: ConsumeToken(); return(table); default: { // name string name = ParseString(); // : if (NextToken() != Token.Colon) { throw new JsonParserException("Expected colon at index ", _index, GetContextText()); } // value object value = ParseValue(); if (name.Length == 0) { // ignores unnamed item continue; } if (name[0] == '$') { switch (name) { case JsonDict.ExtTypes: table.Types = (JsonDict)value; continue; case JsonDict.ExtType: table.Type = (string)value; continue; case JsonDict.ExtRefIndex: table.RefIndex = (int)(long)value; continue; case JsonDict.ExtSchema: table.Schema = value; continue; default: break; } } table.Add(new KeyValuePair <string, object> (name, value)); } break; } } }
static StringDictionary CreateStringDictionary(JsonDict d) { StringDictionary nv = new StringDictionary(); foreach (var o in d) { nv.Add(o.Key, (string)o.Value); } return(nv); }
object CreateStringKeyDictionary(JsonDict reader, ReflectionCache pt) { var col = (IDictionary)pt.Instantiate(); // NOTE: argument 0 is not used ReflectionCache ec = pt.ArgumentReflections != null ? pt.ArgumentReflections[1] : null; var m = ec != null ? ec.DeserializeMethod : RevertUndefined; foreach (KeyValuePair <string, object> values in reader) { col.Add(values.Key, m(this, values.Value, ec)); } return(col); }
DataSet CreateDataSet(JsonDict reader) { DataSet ds = new DataSet(); ds.EnforceConstraints = false; ds.BeginInit(); // read dataset schema here var schema = reader.Schema; if (schema is string) { TextReader tr = new StringReader((string)schema); ds.ReadXmlSchema(tr); } else { DatasetSchema ms = (DatasetSchema)CreateObject((JsonDict)schema, _manager.GetReflectionCache(typeof(DatasetSchema)), null); ds.DataSetName = ms.Name; for (int i = 0; i < ms.Info.Count; i += 3) { if (ds.Tables.Contains(ms.Info[i]) == false) { ds.Tables.Add(ms.Info[i]); } ds.Tables[ms.Info[i]].Columns.Add(ms.Info[i + 1], Type.GetType(ms.Info[i + 2])); } } foreach (KeyValuePair <string, object> pair in reader) { //if (pair.Key == "$type" || pair.Key == "$schema") continue; JsonArray rows = (JsonArray)pair.Value; if (rows == null) { continue; } DataTable dt = ds.Tables[pair.Key]; ReadDataTable(rows, dt); } ds.EndInit(); return(ds); }
DataTable CreateDataTable(JsonDict reader) { var dt = new DataTable(); // read dataset schema here var schema = reader.Schema; if (schema is string) { TextReader tr = new StringReader((string)schema); dt.ReadXmlSchema(tr); } else { var ms = (DatasetSchema)CreateObject((JsonDict)schema, _manager.GetReflectionCache(typeof(DatasetSchema)), null); dt.TableName = ms.Info[0]; for (int i = 0; i < ms.Info.Count; i += 3) { dt.Columns.Add(ms.Info[i + 1], Reflection.Instance.GetTypeFromCache(ms.Info[i + 2])); } } foreach (var pair in reader) { //if (pair.Key == "$type" || pair.Key == "$schema") // continue; var rows = (JsonArray)pair.Value; if (rows == null) { continue; } if (!dt.TableName.Equals(pair.Key, StringComparison.InvariantCultureIgnoreCase)) { continue; } ReadDataTable(rows, dt); } return(dt); }
/// <summary> /// Deserializes an object. /// </summary> /// <param name="data">The data to be deserialized.</param> /// <param name="type">The reflection cache of the type.</param> /// <param name="input">The data container. If this value is not null, deserialized members will be written to it. If null, new object will be created.</param> /// <returns>The deserialized object.</returns> /// <exception cref="JsonSerializationException">Cannot determine type from <paramref name="data"/>.</exception> internal object CreateObject(JsonDict data, ReflectionCache type, object input) { if (data.RefIndex > 0) { object v = null; _cirrev.TryGetValue(data.RefIndex, out v); return(v); } if (data.Types != null && data.Types.Count > 0) { _usingglobals = true; globaltypes = new Dictionary <string, object> (); foreach (var kv in data.Types) { globaltypes.Add((string)kv.Value, kv.Key); } } var tn = data.Type; bool found = (tn != null && tn.Length > 0); #if !SILVERLIGHT if (found == false && type != null && typeof(object).Equals(type.Type)) { return(data); } #endif if (found) { if (_usingglobals) { object tname = ""; if (globaltypes != null && globaltypes.TryGetValue(data.Type, out tname)) { tn = (string)tname; } } type = _manager.GetReflectionCache(Reflection.Instance.GetTypeFromCache(tn)); } if (type == null) { throw new JsonSerializationException("Cannot determine type"); } object o = input; if (o == null) { o = _params.ParametricConstructorOverride ? System.Runtime.Serialization.FormatterServices.GetUninitializedObject(type.Type) : type.Instantiate(); } int circount = 0; // dictionary lookup makes it impossible to use objects with a custom GetHashCode based on (unchanging) properties: if (_circobj.TryGetValue(o, out circount) == false) { circount = _circobj.Count + 1; _circobj.Add(o, circount); _cirrev.Add(circount, o); } var si = type.Interceptor; if (si != null) { si.OnDeserializing(o); } Dictionary <string, JsonMemberSetter> props = type.Setters; //TODO: Candidate to removal of unknown use of map //if (data.Map != null) { // ProcessMap (o, props, data.Map); //} foreach (var kv in data) { var n = kv.Key; var v = kv.Value; JsonMemberSetter pi; if (props.TryGetValue(n, out pi) == false || pi.CanWrite == false && pi.Member.JsonDataType != JsonDataType.List) { continue; } MemberCache m = pi.Member; var ji = new JsonItem(n, v, false); bool converted = false; // TODO: Convert items for types implements IEnumerable and Add(?) method if (v is IList && pi.ItemConverter != null) { converted = ConvertItems(pi, ji); } if (pi.Converter != null || m.MemberTypeReflection.Converter != null) { ConvertProperty(o, pi, ji); } object oset = null; // use the converted value if (converted || ReferenceEquals(ji._Value, v) == false) { if (pi.CanWrite == false && m.JsonDataType == JsonDataType.List) { ji._Value = CreateList((JsonArray)ji._Value, m.MemberTypeReflection, m.Getter(o)); } if (ji._Value != null || m.IsClass || m.IsNullable) { oset = ji._Value; goto SET_VALUE; } continue; } // process null value if (ji._Value == null) { var i = new JsonItem(n, null, false); if (si != null && si.OnDeserializing(o, i) == false) { continue; } if (i.Value != null || m.IsClass || m.IsNullable) { o = m.Setter(o, i.Value); } continue; } v = ji._Value; // set member value switch (m.JsonDataType) { case JsonDataType.Undefined: goto default; case JsonDataType.Int: oset = (int)(long)v; break; case JsonDataType.String: case JsonDataType.Bool: case JsonDataType.Long: oset = v; break; case JsonDataType.Double: oset = v is long?(double)(long)v : (double)v; break; case JsonDataType.Single: oset = v is long?(float)(long)v : (float)(double)v; break; case JsonDataType.DateTime: oset = CreateDateTime(this, v); break; case JsonDataType.Guid: oset = CreateGuid(v); break; case JsonDataType.ByteArray: oset = Convert.FromBase64String((string)v); break; case JsonDataType.List: if (m.MemberTypeReflection.CollectionName != null) { goto default; } oset = CreateList((JsonArray)v, m.MemberTypeReflection, pi.CanWrite && (m.IsClass || m.IsStruct) ? null : m.Getter(o)); break; case JsonDataType.Object: oset = v; break; default: if (m.DeserializeMethod != null) { oset = m.MemberTypeReflection.DeserializeMethod(this, ji._Value, m.MemberTypeReflection); goto SET_VALUE; } if ((m.IsClass || m.IsStruct) && v is JsonDict) { oset = CreateObject((JsonDict)v, m.MemberTypeReflection, m.Getter(o)); } else if (v is JsonArray) { oset = CreateArray((JsonArray)v, _manager.GetReflectionCache(typeof(object[]))); } else if (m.IsValueType) { oset = ChangeType(v, m.ChangeType); } else { oset = v; } break; } SET_VALUE: ji.Value = oset; if (si != null) { if (si.OnDeserializing(o, ji) == false) { continue; } } if (m.Setter != null) { o = m.Setter(o, ji.Value); } } if (si != null) { si.OnDeserialized(o); } return(o); }